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ssifying,50,2,54,1,56,1,62,10,73,1,77,2","clean,55,1,63,1","cleaned,50,1","cleaning,63,1","clear,61,1","clients,49,2,73,1","clip,81,8","co,69,2","coarse,50,2","coat,55,3","coater,56,1","coating,26,1,47,1,52,1,55,13,56,4,73,2,79,1","coatings,49,1,50,1,55,6,58,1,62,1,73,2,79,1","code,69,1","cohesion,49,1,57,1","colid,91,2","collaborate,51,1","collaboration,66,1","collaborations,55,1","collaborative,26,1,47,1,66,1","collaborators,66,1","collection,48,1,57,1","collector,50,1","collision,50,1","collisions,50,2","colloid,54,1","color,55,2","column,65,1,67,2","columnlist,90,1,91,1","columns,67,1,90,2,91,1","combination,52,1,70,1,79,1","combine,49,1,66,1","combined,69,1,79,1","combines,55,1,58,1,72,1","comes,62,1,64,1,65,1","commitments,73,1","committed,51,1","common,65,1","commonly,48,1,67,1,70,1","communication,29,1","communications,74,8,75,8","compact,48,1,55,1,63,1,69,1","competitive,85,2","compiled,48,1","complete,26,1,47,1,73,1,79,1","completely,48,1","complex,65,1,67,1","compliance,65,1","compliant,26,1,29,1,47,1,48,1,49,1,50,1,51,1,52,1,53,1,54,1,55,1,56,1,57,1,58,1,59,1,60,1,61,1,62,1,63,1,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,1,72,1,73,1,74,1,75,1,85,1,86,1","complies,57,1","comply,26,1,29,1,47,1,48,1,49,1,50,1,51,1,52,1,53,1,54,1,55,1,56,1,57,1,58,1,59,1,60,1,61,1,62,1,63,1,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,1,72,1,73,1,74,1,75,1,85,1,86,1","compo,67,1","component,67,2","components,65,1,79,1","composed,69,1","composition,48,1,70,1","compound,64,1","compounder,79,2","compounding,52,1,69,1,77,1,79,1","compounds,65,1,67,2,68,1","compreh,86,1","comprehension,69,1","comprehensive,49,1,51,1","compressibility,57,1","compression,49,1","comprises,67,1","concentrations,64,1","concrete,48,1","condenser,63,2","condimentum,74,3,75,3","conditions,63,1,85,1","conductive,60,1","conductivity,67,1","conferences,59,1","confidentiality,49,1,59,1","configuration,67,1,69,1","configurations,67,1","conklin,72,1","consectetuer,74,2,75,2","considerable,55,1","consistency,55,1","consistent,49,1,86,1","consistently,50,1","consisting,68,1","consolidation,66,1,73,1","consortium,26,1,29,1,47,1,48,1,49,1,50,1,51,1,52,1,53,1,54,1,55,1,56,1,57,1,58,1,59,1,60,1,61,1,62,1,63,1,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,1,72,1,73,1,74,1,75,1,85,1,86,1","constant,48,1,55,1","construction,78,1","consulting,51,1","consumption,62,1","contact,26,3,29,2,47,3,48,3,49,3,50,3,51,2,52,3,53,3,54,3,55,3,56,3,57,3,58,3,59,3,60,3,61,3,62,3,63,3,64,3,65,3,66,2,67,3,68,3,69,3,70,3,71,11,72,3,73,3,74,1,75,1,85,3,86,3","contacting,63,1","contained,48,2","contaminate,63,1","contamination,50,1,63,1","content,70,1","continual,26,1,47,1","continuous,62,2","continuously,48,2","contract,26,1,47,1","contrast,53,1,60,2","contributes,50,1","control,29,1,48,1,49,1,50,1,52,2,53,2,55,4,64,1,65,2,66,1,67,2,69,3,70,1,79,2,85,1","controlled,50,1,53,1,63,1,79,1","controls,55,1,61,1","convallis,74,1,75,1","conveying,69,1","cool,67,1","cooled,79,1","cooling,53,1,56,1,69,2,70,1,79,2","copper,53,1","core,66,2","cores,72,1","corporation,86,1","corrected,53,2","corrects,70,1","cost,26,1,47,1,50,1,51,1,55,1,73,1,85,1","costs,67,1","could,62,1","counting,54,1","cover,53,1","cp,67,3","cras,74,2,75,2","create,66,1,67,1","created,26,1,47,1","cristobalite,48,1","crucible,70,1","crystalline,48,2","crystallinity,48,2","crystallization,29,1,66,1,73,1","cubilia,74,1,75,1","curabitur,74,1,75,1","curae,74,1,75,1","current,67,1","cursus,74,1,75,1","curves,64,1,70,1","custom,26,1,47,1,55,2","customers,73,1","cut,50,2","cycle,67,1","cycles,79,1","d523,58,1","d6393,57,1","damage,67,1","damaging,85,1","dampening,65,1","data,48,4,53,1,57,1,58,2,64,1,70,3,72,1,85,1,91,3","database,48,1","date,91,1","datetime,91,1","day,78,1","dbo,91,3","dc300,53,1","decreases,67,1","dedicated,26,2,47,2,51,1,59,1,66,1","dedication,59,1","default,91,1","defaultvalue,91,3","deg,53,4,67,3,70,6","degree,66,1","dektak,49,1,58,2,77,1,86,1","delimiter,91,7","deliver,55,1","delivery,55,1,65,3","demands,54,1","density,49,1,57,2","department,26,1,29,1,47,1,66,2","depending,77,1","dept,55,1","derivation,65,1","derived,72,1","described,58,1","design,52,1,63,1,65,2,70,1,79,2","designed,53,1,54,1,55,4,61,1,63,1,69,1,79,1","desirable,60,1","desired,49,1","desorption,70,1","destructive,60,1","detection,67,2","detector,60,1,65,7,67,9","detectors,60,1,65,1,67,1","determination,48,2","determine,50,1,64,1,70,1","develop,26,1,55,1,47,1,65,1,85,1","developed,57,1,64,1","developing,26,1,51,1,55,1,59,1,47,1","development,26,3,51,1,59,7,63,1,47,3,66,3","devoted,51,1","dft,72,1","diagnostics,55,1","diameter,61,1,62,1,69,2","diamond,58,1","dictumst,74,1,75,1","difference,49,1,57,1","different,50,1,55,2,56,1,62,1,65,1,68,1,72,1,79,1","differential,49,1,65,2,70,3,77,1,86,1","difficult,62,1","diffraction,48,7,49,2,54,1,77,2,86,1","digital,53,2,55,1,63,1","diluting,65,1","dilution,65,1","dimension,63,1","dimensional,52,1,79,1,85,1","diode,64,1","dioxide,72,1","direct,62,1","direction,66,2,69,1","directly,62,1","director,66,1,71,2","directory,26,1,2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121,8,122,8,129,8,130,8,131,8,132,8,133,8,134,8,136,8,137,8,138,8,139,8,140,8,141,8,142,8,143,8,144,8,145,8,146,8,147,8,148,8,149,8","pins,50,1","pipe,50,1","pitch,69,1","pitches,69,1","placed,26,1,47,1","planarity,58,1","plastics,62,1,70,1","plate,62,1","platea,74,1,75,1","platform,26,1,66,1,67,2,47,1","platinum,53,1","plc,52,1,79,2","plot,68,1,72,1","plus,65,2,66,1,69,1","pmma,50,1","point,62,1,72,2","points,50,1","polar,67,1","policies,26,1,29,1,48,1,49,1,50,1,51,1,52,1,53,1,54,1,55,1,56,1,57,1,58,1,59,1,60,1,61,1,62,1,63,1,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,1,72,1,73,1,74,1,75,1,85,1,86,1,47,1","polymer,48,1,54,1,60,1,65,1","polymeric,69,1","polymers,50,1","poor,60,1,69,1","pore,72,3","pores,72,1","porosity,49,1,72,2,77,1,86,1","portable,55,3,56,1","portal,29,1","porttitor,74,1,75,1","possible,58,1","possibly,26,1,29,1,48,1,49,1,50,1,51,1,52,1,53,1,54,1,55,1,56,1,57,1,58,1,59,1,60,1,61,1,62,1,63,1,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,1,72,1,73,1,74,1,75,1,85,1,86,1,47,1","post,66,1","postfach,79,1","posuere,74,2,75,2","potential,49,1,54,1,77,1,86,1","powder,26,3,49,2,50,1,51,2,52,1,55,21,56,8,57,8,62,5,66,4,69,1,73,12,74,1,75,1,77,1,79,1,86,2,47,3","powderpaint,55,4","powderprocessequip,56,4","powders,26,1,29,1,48,1,49,1,50,5,51,1,52,1,53,1,54,4,55,1,56,1,57,3,58,1,59,1,60,1,61,1,62,2,63,2,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,3,72,2,73,1,74,1,75,1,79,1,85,1,86,1,47,1","powdertester,57,4","power,69,1,79,1","powered,62,1","powerful,48,3,53,1,60,2,68,1","praesent,74,1,75,1","pre,55,1","precise,62,1,65,1,69,1","precisely,55,1","precision,48,1,52,2,53,1,54,1,63,2,65,1,79,2","preparation,48,1,65,1","preparative,65,1","preservesinglequotes,91,1","preset,63,1","pressure,55,1,60,4,63,1,65,1,72,1,77,1","pretium,74,2,75,2","prevent,64,1,67,1","prf,26,14,29,10,48,10,49,16,50,12,51,9,52,10,53,10,54,10,55,9,56,11,57,9,58,9,59,11,60,11,61,9,62,10,63,10,64,6,65,9,66,10,67,10,68,10,69,11,70,10,71,13,72,11,73,14,74,2,75,2,77,1,85,10,86,11,47,14","price,77,4","primarily,70,1","primis,74,1,75,1","principals,72,1","principle,50,1,52,1,79,1","printer,57,1","prism,65,1","privacy,26,1,29,1,48,1,49,1,50,1,51,1,52,1,53,1,54,1,55,1,56,1,57,1,58,1,59,1,60,1,61,1,62,1,63,1,64,1,65,1,66,1,67,1,68,1,69,1,70,1,71,1,72,1,73,1,74,1,75,1,85,1,86,1,47,1","pro,79,5","procedure,91,2","proceed,63,1","process,50,1,56,1,63,1,77,1","processes,52,2,70,1,79,2","processing,26,3,48,1,49,1,50,1,51,1,52,1,56,6,62,2,69,2,73,11,77,1,79,2,47,3","procname,91,1","procparams,91,6","produce,50,1,52,1,60,1,79,1","produced,50,1,62,1,63,1,66,1","producing,50,1,63,1,65,2","product,26,1,50,3,52,3,53,1,55,1,79,5,47,1","production,55,1,56,1,79,1","productivity,67,1","products,26,1,59,1,70,1,79,1,85,3,47,1","prof,66,7","professors,59,1,66,1,73,1","profile,48,1,53,1","profiler,49,1,58,6,81,8,86,2","profiling,77,1","profs,66,1","program,63,1","programmable,53,1,58,1,65,2","programmed,55,1,61,1","programmer,53,1","programming,53,1","programs,55,1","project,79,1","properties,48,1,57,1","property,49,1,59,1","proportioning,65,1","proprietary,70,1","prostar,65,6","protected,49,1,59,1","protects,48,1","provide,26,2,51,1,58,1,59,1,65,1,66,1,69,1,70,1,86,1,47,2","provided,49,1,73,1","provides,26,1,52,1,53,1,55,4,57,1,62,2,65,1,79,1,85,1,47,1","providing,51,1","provision,26,1,49,1,51,1,66,1,47,1","psd,54,1,86,1","ptrw,26,3,29,3,48,2,49,2,50,2,51,2,52,2,53,2,54,2,55,2,56,2,57,2,58,2,59,2,60,2,61,2,62,2,63,2,64,2,65,2,66,5,67,2,68,2,69,2,70,2,71,2,72,2,73,2,74,1,75,1,76,1,85,2,86,2,92,8,47,3","public,74,4,75,4","publication,59,1","publications,66,1","pulse,65,2","pump,65,3","pumping,65,1","pumps,65,1","purge,55,1,70,2","purification,65,1","purus,74,1,75,1","pvc,79,1","pxx,79,2","qc,70,1","qualities,79,1","quality,26,1,48,1,51,1,53,2,55,1,60,3,63,2,65,1,73,1,47,1","quantification,65,1","quantitative,48,2,65,1","quantities,62,1","quantity,62,3","quartz,60,2","quick,53,1,61,1","quickly,62,1","quis,74,1,75,1","quoteforms,75,4","quotes,48,1,49,1,54,1,55,1,56,1,64,1,65,1,67,1,69,1,70,1,86,1","qxd,80,4","radially,79,1","radiation,48,2","radically,52,1","radushkevich,72,1","rahbari,26,2,29,2,48,2,49,2,50,2,51,2,52,2,53,2,54,2,55,2,56,2,57,2,58,2,59,2,60,2,61,2,62,2,63,2,64,2,65,2,66,2,67,2,68,2,69,2,70,2,71,3,72,2,73,2,74,1,75,1,85,2,86,2,47,2","ramps,53,1","range,26,1,48,1,50,1,53,1,54,1,58,1,60,1,62,1,64,1,65,2,67,1,70,4,72,1,73,1,79,1,85,1,47,1","ranges,67,1","ranging,53,1,54,2,61,1,62,1","rapid,67,1,79,1","rate,67,1,70,3,77,1","rates,53,1,86,1","ratio,48,1,69,1","ray,48,6,49,1,60,2,77,1,86,1","rays,68,2","rb12,56,1","rbf,62,1","rdservices,59,4","reacting,69,1","reaction,70,3","reactions,70,2","reactors,66,1","read,55,1","recall,55,1","receive,49,1","received,66,3","reception,59,1","recognized,51,1","recordcount,90,1,91,2","recovery,62,1","red,49,1,77,1","reduce,60,1","reduced,65,1","reduces,55,1,67,1","reduction,50,11,73,1,77,2","refers,72,1","refinement,48,1","reflectance,68,1","refractive,65,2","refrigeration,63,1","regular,86,1","regulations,54,1","reinforcement,55,1","reje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arrFiles=new Array();arrFiles[0]=new Array(26,"index.html","2006-03-21","PRF - Home","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Welcome to Particle Research Facility The Particle Research Facility is dedicated to the advancement of research, innovation, and technological development through the provision of an affordable and easy to access facility and a platform for collaborative research and development. The Particle Research Facility (PRF) was created in the fall of 2005 as part of a continual effort by the Particle Technology Research Western (PTRW) , and the Department of Chemical and Biochemical Engineering (UWO) to establish a world leading particle research and development facility at UWO. PRF is equipped with a variety of particle processing and handling equipment to provide versatile, high quality contract services. Furthermore, our group of knowledgeable researchers can provide custom processing and handling solutions to meet specific applications and requirements. With emphasis placed on industrial partnership we will work with you to develop an economical solution to your R&D needs. The research team at PRF provides superior R&D services that is backed by over twenty years of dedicated research in powder processing and fluidization. PRF also offers a wide range of analytical services . Our powder paint division has over seven years of experience in developing novel ultrafine powder coating products, and our Weathering Research Services use Q-Sun \'s Xenon test chamber to put your product to the test at fraction of the cost. For a complete list of the instruments and services available at PRF please browse through the website or contact us . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca Visitor No: PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",16);arrFiles[1]=new Array(29,"links.htm","2006-03-23","PRF - Related Links","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF - Related Links Particle Technology Research Western (PTRW) Control and Crystallization of Pharmaceuticals Laboritory (CCPL) Surface Science Western (SSW) Biovelocity.NET - Biotechnology Communication Portal Department of Chemical and Biochemical Engineering (UWO) Faculty of Engineering (UWO) Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",13);arrFiles[2]=new Array(47,"search.html","2006-05-01","PRF - Home","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Welcome to Particle Research Facility The Particle Research Facility is dedicated to the advancement of research, innovation, and technological development through the provision of an affordable and easy to access facility and a platform for collaborative research and development. The Particle Research Facility (PRF) was created in the fall of 2005 as part of a continual effort by the Particle Technology Research Western (PTRW) , and the Department of Chemical and Biochemical Engineering (UWO) to establish a world leading particle research and development facility at UWO. PRF is equipped with a variety of particle processing and handling equipment to provide versatile, high quality contract services. Furthermore, our group of knowledgeable researchers can provide custom processing and handling solutions to meet specific applications and requirements. With emphasis placed on industrial partnership we will work with you to develop an economical solution to your R&D needs. The research team at PRF provides superior R&D services that is backed by over twenty years of dedicated research in powder processing and fluidization. PRF also offers a wide range of analytical services . Our powder paint division has over seven years of experience in developing novel ultrafine powder coating products, and our Weathering Research Services use Q-Sun \'s Xenon test chamber to put your product to the test at fraction of the cost. For a complete list of the instruments and services available at PRF please browse through the website or contact us . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca Visitor No: PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",16);arrFiles[3]=new Array(48,"xrd.htm","2006-03-23","PRF - X-Ray Diffraction Services","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. X-Ray Diffraction (XRD) Services X-Ray Diffraction (XRD) is most commonly used as an identification tool. The Rigaku MiniFlex XRD is a compact system that can be transported from the laboratory to the field. This instrument features high precision and is ideal for quantitative analysis of: asbestos and free silica; cristobalite contained in concrete, determination of the phase composition of unknown crystalline and amorphous materials; determination of percent crystallinity in a polymer; and quality control of pharmaceuticals . Features and Benefits: • No goniometer calibration required: The built-in goniometer is factory aligned and requires no additional calibration. • Self-Contained Radiation Enclosure: The radiation enclosure completely protects user from exposure and is so small it fits in a glove box. • Continuously Variable Slit : The Continuously variable slit maintains a constant irradiated area and improves the peak-to-background ratio over the entire 2 ? range of 3º - 150º . • Powerful Data Processing Software: The Mini Flex XRPD software allows for easy profile smoothing, Ka2 removal, background subtraction, and peak search. The software package includes powerful multiple method quantitative analysis . It also enables cell refinement for identifying crystalline structure , percent crystallinity calculations and other powerful calculation tools • PDF-4 XRD database library: This is a collection of over 270,000 XRD data sets compiled by the International Center for Diffraction Data (ICDD) . The data sets have been edited to include physical properties, experimental preparation and literature citations. Please contact us for more information and quotes on PRF \'s Rigaku MiniFlex XRD Services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[4]=new Array(49,"AnalyticService.html","2006-03-23","PRF Analytical Services","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF Analytical Services THe Particle Research Facility (PRF) offers specialized analytical services to support the particle processing, powder coatings, and pharmaceutical industries. With over twenty years of experience in particle related research, PRF has the expertise desired for an accurate, and comprehensive analytical service. The team of research engineers at PRF combine advanced technologies and analytical techniques with their know-how to ensure that you receive consistent, reliable results time and time again. At PRF, we maintain a strict confidentiality agreement with our clients to ensure that their intellectual property rights are protected. We also look forward to building a long term relationships with our clients through the provision of an affordable, easy to access facility. List of Analytical Services Provided by PRF: Imaging Microscopy and Surface Analysis: Scanning Electron Microscopy (SEM) and BSE Imaging, EDX analysis High Resolution Optical Microscopy, with temperature control Dektak 8 Surface Profiler Surface Gloss Meter Particle Characterization Services: X-Ray Diffraction (XRD) Analysis Particle Size Analysis (Laser Diffraction Technique) Aerodynamic Particle Size Measurement Molecular Weight Measurement Zeta Potential Measurement Sieve Analysis Bulk Powder Characteristic Measurement (i.e. Angles of Repose, Fall, Difference and Spatula; Aerated and Packed Bulk Density; Cohesion; Compression; and Dispensability Measurements Particle porosity and Surface Area Measurements (BET) Chemical and Biochemical Analysis: High Performance Liquid Chromatography Gas Chromatography Mass Spectrometry Thermal Analysis: Thermogravimetric Analysis (TGA) Differential Scanning Calorimeter (DSC) Spectroscopy and Other Analytical Services: Fourier Transform Infra-red Spectroscopy (FTIR) UV-Visible Spectrophotometery Accelerated Weathering Please contact us for more information and quotes on PRF \'s analytical services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",17);arrFiles[5]=new Array(50,"mills.html","2006-03-23","PRF - Partilce size reduction ","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF - Particle Size Reduction At PRF we have over fifteen years of experience in size reduction of a variety of materials from polymers such as nylon and PMMA to a wide variety of powder coatings, pharmaceuticals, and inorganic powders. Our engineering expertise can determine the most suitable, cost-effective technology for your application. ACM Spiral Jet Mill Opposed Jet Mill 1. Air Classifying Mill (ACM): The Air Classifying Mill (ACM) operates on the principle of impact grinding. Particle size reduction is achieved in these mills through the impact of the particles with the high speed rotating pins and fixed liner. Particle-to-particle collision also contributes to the particle size reduction. During milling the fine particles are carried out by the air circulating in the mill, while coarse particles remain in the mill. The particles are carried to a classifier where the ultrafine particles are passed through a pipe to a baghouse, and the remaining fine particles go to a rotary-sieve where final particle separation occurs. Cut sizes are accurately controlled by varying the classifier speed. Features and Benefits: Very Narrow Particle Size Distribution - One pass milling resulting in accurate particle size cut points that are instantly adjustable and narrow particle size distribution. Fine Grinding Capabilities - Particle can be grinded down to about 10 microns in one pass. Minimum Material Contamination - Internals of the mill are easily removed and cleaned making material changeover easy, and hygienic. back to the top 2. Spiral Jet Mill: The PRF has two different Spiral Jet Mills that are ideal for laboratory applications, and the processing of small batches of material. Jet Mills achieve particle size reduction through particle-to-particle and particle-to-wall collisions using high velocity air nozzles. Powders can ben milled with a large percentage of ultrafine (0.5 to 20 micron) particles produced. back to the top 3. Opposed Jet Mill: Opposed Jet Mills are engineered to consistently produce ultrafine powders without oversize particles resulting in narrow particle size distributions. Size reduction in an opposed jet mill is achieved exclusively by particle-to-particle collisions. The unit includes a high speed internal classifier ensures tight top size control without over grinding. During the process the ground product is transported to the classifier in an upwards air flow, the final product enters into a collector through the fine material discharge, while the coarse materials returns back into the product bed for further size reduction. This mill is also capable of producing powders with particle size averages as low as 1 - 2 microns, with a large percentage of particles in the 0.5 - 5 micron range. back to the top For more information on our milling equipment and services , please contact us . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",17);arrFiles[6]=new Array(51,"Mission.html","2006-03-23","PRF - Mission","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Our Mission and Vision Our Mission: The Particle Research Facility is dedicated to the advancement of research, innovation, and technological development through the provision of an affordable, easy to access facility. We are committed to offering advanced powder processing equipment and analytical instrumentation that are supported by a knowledgeable staff of engineers, devoted to the highest quality of toll, analytical, and consulting services. Our Vision: The Particle Research Facility will: Be recognized as a center of excellence and a leader in providing comprehensive analytical services Provide cost effective and efficient services Collaborate with UWO researchers to advance the application of innovative technologies Enhance powder related research by developing partnerships with industry and other institutions Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",13);arrFiles[7]=new Array(52,"mixer.htm","2006-03-23","PRF - Mixer","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. High Sheer Mixer Lodige Papenmeier High Sheer Laboratory Mixer The Lodige high sheer mixer operates on the principle of friction mixing in batch processes. Homogeneous mixing is achieved in a very short time and by extending the processing time precision heating of all particles is obtained. The high speed mixing impeller in special, geometric design accelerates the mixing product both radically to the outside and upwards in a spiral to produce a distinct vortex. The combination of this three-dimensional product movement and the introduction of intensive friction provides targeted, uniform heating of the entire batch. The temperature control can be using in bonding applications for powder coating, and compounding of thermoplastics. Features and Benefits: • Maximum mixing precision and versatility • PLC/PC control systems for reproducible processes • Gentle product handling • Reliable scale-up Please contact us for more information on mixing services available at PRF. For information on standard charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[8]=new Array(53,"OMs.htm","2006-03-23","PRF - Optical Microscope ","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Optical Microscopes Mitutoyo FS70 Microscope Zeiss with Temperature Control 1. The Mitutoyo FS70 high-resolution optical microscope is equipped with infinity corrected optical lens, ACE I fiber-optic light source, Leica DC300 digital camera , and Vision Gauge software. Features and Benefits: • Ideal inspection tool: The FS70 has optimal characteristics for inspecting particles, or precision-manufactured parts with 1000x magnification capability and high-resolution imaging • ACE I fiber-optic light source: EKE Ace I provides auxiliary stage lighting for maximum quality visualization • Long working distance: The FS series microscopes are equipped with infinity corrected optical lens featuring ultra-long working distance, and wide-ranging field of view • Vision Gauge Software: Vision Gauge is a powerful and easy-to-use product to capture, manipulate, analyze, store, and output images and data for quick report generation back to the top 2. The Zeiss Axioskop40 optical microscope has a digital camera and a Linkam temperature control system optimized for sample analysis, and easy sample access. The system includes the highly stable LTS350 heating/freezing stage. Features and Benefits: • Leading optics: uncompromising quality from Carl Zeiss with Varel and Oblique illumination and high-end fluorescence for outstanding contrast, and highest transmission • Linkam Analyst Dynamics System: Featuring the LTS350 temperature stage and TMS94 temperature programmer • The TMS94 Features: Controlled heating and cooling rates of 0.01°C; up to 32 ramps in one programmable profile; hold time of 0 - 9999 mins; RS232 interface to allow programming by Linksys 32 software • The LTS350 Features: Versatile heating/freezing stage with 0.01°C thermal stability ; (-196°C - 350°C) temperature range ; platinum resistor sensor for accurate temperature measurements; gas tight chamber; and a specially designed copper sample cover lid for uniform thermal environment back to the top Please contact us for more information on Optical Microscope imaging services available at PRF. For information on standard charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",17);arrFiles[9]=new Array(54,"Particlesize.htm","2006-03-23","PRF - Particle Size Analyses","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Particle Size Analyses 1. Mastersizer 2. TSI 3. Zetasizer 4. NGI 1. Malvern Mastersizer 2000: is a versatile laser diffraction-based analyzer capable of measuring the size distribution of particle emulsions, suspensions, and dry powders ranging from 0.02 to 2000 microns . Unparalleled accuracy and reproducibility is achieved with this system that includes both wet dispersion and dry dispersion units. back to the top 2. TSI PSD 3603: This unit uses patented time-of-flight and single-particle counting analyzer systems to measure both particle size distribution and aerodynamic particle size of dry, unprepared powders and aerosols in the range of 0.3 to 700 microns . Built to meet the rigorous demands of pharmaceutical manufacturers and government regulations this analyzer is ideal for medical aerosols and pharmaceutical powders. back to the top 3. Malvern Zetasizer 3000HSA: This particle size analyzer measures three of the most important parameters in colloid and polymer chemistry , particle size, z eta potential and molecular weight . The system measures particles and molecules from 0.6 nanometers to 6 microns . back to the top 4. Next Generation Impactor (NGI): The Next Generation Impactor was specifically designed for pharmaceutical inhalers . It is a high performance, precision, particle classifying cascade impactor for measuring aerodynamic particle size. It is capable of measuring particle sizes ranging from 0.23 - 15 microns efficiently, accurately and repeatedly. back to the top Please contact us for more information and quotes on PRF \'s Particle Size Measurement Services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",16);arrFiles[10]=new Array(55,"PowderPaint.html","2006-03-23","Faculty of Engineering - The University of Western Ontario","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Welcome to Dept. of - Areas of Research The Particle Research Facility (PRF) has been involved in powder coatings research and formulation for more than seven years. The research at PRF has led to a number of novel powder coatings inventions and a patent on a novel ultrafine powder coatings technology. The ultrafine powder coatings result in thinner films, smoother surface and leads to considerable cost savings to the powder coating industry. Dr. Jesse Zhu is involved with a number of industrial collaborations for developing and transferring this technology. Furthermore, we are fully equipped to develop novel powder coating formulations for specific application requirements. Nordson 902 Powder Spray Booth In-House Designed Spray Booth Portable Powder Paint Systems 1. Nordson 902 Powder Coating Booth: The model 902 powder spray booth provides clean, efficient and flexible operation in batch, short-run and custom-color manual powder coating operations. With Nordson cartridge-filter technology, the booth provides high material utilization and fast, color-change capability in a compact, modular system that is ideal for use in laboratory and manual reinforcement applications. back to the top 2. In-House Designed Powder Coating Spray Booths: At PRF we have build two different sized powder coating spray booths for powder coatings application, formulation, and modeling research. 1. Large in-house designed spray booth: 2 m x 1.8 m x 1.6 m 2. Small in-house designed spray booth: 1 m x 0.8 m x 1.2 m back to the top 3. Portable Powder Paint Spray Systems: At PRF there are three portable powder paint spray systems for each of the three spray booths. There are two Sure Coat Manual Spray Gun Systems from Nordson and one OptiFlex Manual Spray system from ITW Gema. 1. Sure Coat Manual Spray Gun Systems: The Nordson Sure Coat system provides operator-selectable, product-specific coating modes that deliver optimal coating performance for a variety of different powder coating applications. The system allows the user to choose the ideal application parameters for high levels of coating quality, efficiency and consistency. Features and Benefits: Constant-read gauges on the control display air-pressure and electrostatic parameters even when guns are not triggered on Self-diagnostics feature reduces downtime, minimizes rejects and facilitates troubleshooting Purge button on gun handle allows operator to spray air to minimize powder build-up and surging 2. OptiFlex Manual Spray System: The OptiFlex system combines flexibility and economy, and is ideal for medium to large production runs. The system stores your application settings for easy recall in any coating scenario. Features and Benefits: On-gun remote controls adjust coating mode and powder delivery without requiring operators to turn away from their work OptiStarT Advanced Control Unit provides total control flexibility, giving operators a choice between 20 custom programs and 3 pre-programmed settings Patented Digital Valve Control (DVC), automatically and precisely adjusts all air required for powder coating back to the top Please contact us for more information and quotes on our Powder Coatings Division . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",18);arrFiles[11]=new Array(56,"PowderProcessEquip.htm","2006-03-23","PRF - Particle Processing Equipment","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Particle Processing Equipment At PRF we have a large selection of different powder processing equipment capable of meeting most applications and industrial needs. Feeders: SCHENCK AccuRate Mechatron Gravimetric Feeders Mixers: High Sheer Mixer Mills: Air Classifying Mill (ACM) Fluidized Bed Opposed Jet Mill Two Spiral Jet Mills Sieves and Classifiers: Turbo Screen Air Classifier Two Rotary Sieves Vorti-Siv RB12 12 Ultrasonic Vibrating Sieves 22 Production Model Ultrasonic Sieve Extruders: Twin Screw Extruder with Cooling Belt Powder Coating Equipment: Nordson 902 Powder Coating Booth Powder Coating Spray Booth (2 m x 1.8 m x 1.6 m) Powder Coating Spray Booth (1 m x 0.8 m x 1.2 m) Portable Powder Paint Spray System Fluidized Powder Paint Coater VWR Furnace Spray and Freeze Dryers Buchi Mini Spray Dryer ModulyoD Freeze Dryer Please contact us for more information and quotes on PRF \'s Powder Process-ing Equipments. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[12]=new Array(57,"powdertester.htm","2006-03-23","PRF - Powder Characteristics Tester ","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Powder Characteristics Tester The Hosokawa Powder Characteristics Tester is a single instrument which provides seven mechanical measurements and three supporting measurements of dry bulk powders. It complies with Standard Test Method ASTM D6393-99, as well as JIS and ISO standards. The powder tester was developed to improve handling, efficiency, and accuracy in testing the bulk properties of dry powders. It features a microcomputer, electronic balance, a data printer, and a built-in dust collection system . It is an integral tool in characterizing the flow behavior (flow ability) and the flood behavior (flood ability) of bulk materials by measuring the following: Aerated Bulk Density Packed Bulk Density Angle of Repose Angle of Fall Angle of Difference Cohesion Compressibility Dispensability Please contact us for more information on Powder Characteristics Testers . For information on standard charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[13]=new Array(58,"profiler.htm","2006-03-23","PRF - Surface Characterization","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Surface Characterization Veeco Dektak 8 Stylus Surface Profiler: The Dektak 8 surface profiler combines high repeatability, low-force sensor technology, and advanced 3D data analysis for surface characterization of MEMS, semiconductors and other thin/thick films . The system uses a programmable diamond tip stylus to characterize surface roughness, waviness and step height, as well as 3D mapping of surfaces. Features and Benefits: • Low-Inertia Sensors : The low-inertia sensors provide 7.5 angstrom, 1 sigma step height repeatability and vertical range of up to 1mm • Overhead Gantry: This enables scan lengths to 200mm for planarity and flatness measurements • N-Lite Low-Force Sensor: This allows for scratch-free measurement of soft materials with stylus forces down to as low as 0.03mg. It also enables characterization of sub-micron lines and space for MEMS research • Advanced 3D data analysis software : for surface characterization of MEMS, semiconductors and other thin/thick films Rhopoint Triple Angle Novo-Gloss Glossmeter: The Novo-Gloss 20/60/85º glossmeter is a simple to operate instrument for measuring the gloss of flat surfaces. Using all three geometries described in ISO 2813 and ASTM D523 the instrument gives the best possible measurement resolution for all surfaces from matt to high-gloss coatings . Please contact us for more information on Surface Analysis Equipments . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[14]=new Array(59,"RDServices.html","2006-03-23","PRF - Research & Development Services ","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Research & Development From long-term partnership in developing new products to immediate short-term solutions, the Particle Research Facility (PRF) has the best team of Research Engineers for your R&D needs. Our knowledgeable team of Professors, Research Engineers, and Graduate Students are dedicated to the most accurate and reliable particle research . Our dedication to maintain the highest level of integrity in our research is evident through the reception of several patents and the publication of over 150 articles in some of the most respected engineering journals and conferences. At PRF we strive to build long lasting, mutually rewarding relationships with our industrial partners. Furthermore, we provide our research and development services under strict confidentiality agreements to ensure your intellectual property rights are protected. Please contact us for more information on Research & Development Services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[15]=new Array(60,"SEM.htm","2006-03-23","PRf - Secondary Electron Microscope","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Secondary Electron Microscope Variable Pressure Scanning Electron Microscope (VP-SEM) Scanning Electron Microscopy (SEM) is a powerful imaging instrument capable of analyzing particles, textures, surface features, and structures, too small to be seen with an optical microscope. The Hitachi Variable-Pressure Scanning Electron Microscope (VP-SEM) incorporates state-of-the-art technology to produce high quality SEM imaging. Equipped with a powerful Back-Scatter Electron (BSE) , and Energy-Dispersive X-ray (EDX) detectors the VP-SEM at PRF is an ideal analytical tool for many research applications. When non-conductive materials such as biological samples or pharmaceuticals are analyzed with SEM, the electron beam irradiation causes charge build-up, and thus poor image quality. The variable-pressure mode employs a gaseous environment around the sample to reduce the charge build-up and dramatically improves imaging quality. The VP-SEM is ideal for many biological, pharmaceutical, polymer, and food sample analysis where charge build-up can be severe and other methods such as gold-sputtering are not desirable, or in-effective. Features and Benefits: • Very high resolution: Guaranteed a 4.0 nm resolution at 25 KV in high vacuum and 5.0 nm resolution in variable pressure mode • High Magnification: Magnification range between 15 - 300,000x • Back-Scattered Electron (BSE): It is equipped with a BSE detector allowing for enhanced z-contrast, topographic contrast and removal of charging artifacts from image • Energy-Dispersive X-Ray (EDX): One of the most useful features of SEM analysis is EDX. It allows for simultaneous non-destructive elemental analysis of samples • Quartz XOne: The system includes Quartz microanalysis software and PCI image acquisition systems. Please contact us for more information on SEM imaging services available at PRF. For information on Fees please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[16]=new Array(61,"sieve-analysis.htm","2006-03-23","PRF - Sieve Analyses ","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Sieve Analyses At Particle Research Facility we employ the GA-8 Gilsonic UltraSiever to perform sieve analysis. The GA-8 is designed to use up to seven 8 diameter full-height test sieves. With this equipment fast and accurate sonic sieving to 5µm can be achieved. Features and Benefits: • Speed and Accuracy: Quick and accurate sieve analysis and fine particle separation ranging from 5.6mm to 5 microns • Repeatability: Electronic controls give exact repeatability of programmed time and amplitude sequences • Effective De-agglomeration: Built-in electromechanical vertical tapping or alternating vertical and horizontal tapping helps clear sieves, and de-agglomerate samples Please contact us for more information on Sieve Analysis Services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[17]=new Array(62,"sieveing-classifying.htm","2006-03-23","PRF - Sieving and Classifying Services ","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Sieving & Classifying Services Turbo-Screen Classifier Rotary-Sieves Ultrasonic Vibrating Sieves 1. Turbo-Screen Air Classifier: The Turbo-Screen Classifier provides continuous, precise screening of dry materials, especially in the finer particle sizes. It provides a highly efficient separation of particles ranging from 850-70 microns. Handles the most difficult materials, including electrostatic materials and particles that tend to agglomerate easily. back to the top 2. Rotary-Sieves: The Rotary Sieve is a versatile processing equipment that could be used to separate solid particulate materials in a very large range of particle sizes. Large quantity of powder can be separated quickly. The system has relatively low energy consumption and is an attractive size separation technology for the food, pharmaceutical, plastics, and powder coatings industries. back to the top 3. Ultrasonic Vibrating Sieves: PRF is equipped with three ultrasonic sieves of different sizes including an 8, 12, and 22 unit. 8 Ultrasonic Sieve - The small 8 laboratory scale ultrasonic sieve is ideal for small quantities of powders requiring highly accurate separation with maximum powder recovery. 12 Ultrasonic Sieve - The VORTI-SIV RBF-12 comes with a 12 diameter screen and is the most advanced small batch sieving machine on the market. The units use a unique gyratory screening-action generated by an adjustable off-balance flywheel, which is powered by a direct drive 1/2 HP, 3450 RPM motor. Any point on the screen surface moves in a circular orbit, but the screen itself does not rotate. Vorti-Sieve is equipped with a 50kHz, 110/120 volt ultrasonic transducers. Ultrasonic energy is directly applied to the wire mesh screen via the transducer plate. This breaks surface tension, making the stainless steel mesh free of friction and helps to de-agglomerate particles and eliminates particle blinding. T 22 Ultrasonic Sieve - The 22 ultrasonic sieve is ideal for large quantity powder processing applications. The ultrasonic energy produced by the transducer eliminated particle blinding of the screen and allows for efficient sieving of a large quantity of powder in a continuous manner. back to the top For more information on sieving and classifying equipment and services , please contact us . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",17);arrFiles[18]=new Array(63,"spray-freeze.htm","2006-03-23","PRF - Spray & Freeze Drying","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Spray & Freeze Drying Buchi Mini Spray Drier ModulyoD Freeze Dryer 1. Buchi Mini Spray Dryer B-290 Spray drying is the most widely used industrial process involving particle formation and drying. The spray drying technique involves the atomization of a liquid feedstock into a spray of droplets and contacting the droplets with hot air in a drying chamber. The sprays are produced by either rotary (wheel) or nozzle atomizers. Evaporation of moisture from the droplets and formation of dry particles proceed under controlled temperature and airflow conditions. The Büchi Spray Dryer B-290 signifies a new dimension in research and development. The instrument is capable of producing uniform powders from 50 ml or less of organic or aqueous solutions, in just minutes. Features and Benefits: • Easy to Clean and Sterilize: Automatic nozzle cleaning through manual or preset program and simple nozzle disassembly with easy sterilization • High Precision: Nozzle fitted with ruby stone to ensure high precision spraying • Maximum Contaminate-free Yield: High quality inlet and outlet filters ensure maximum yield and contamination-free work • Electronic Monitoring: Electronic monitoring of pressure, temperature, and oxygen levels back to the top 2. ModulyoD Freeze Dryer The ModulyoD Freeze Dryer is a multipurpose ice condenser with a five-liter capacity. It is designed to work with a wide variety of drying accessories, including those used for flasks, vials, ampoules and bulk materials. The robust design includes a high quality, smooth wall stainless steel ice condenser with an easy to use, front mounted, bottom drain. Features and Benefits: • Compact bench-top footprint • Digital display of vacuum and temperature • CFC Free Refrigeration System back to the top Please contact us for more information on Spray Drying and Freeze Drying services available at PRF. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",16);arrFiles[19]=new Array(64,"UV-VIS.htm","2006-03-23","Faculty of Engineering - The University of Western Ontario","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. UV-Visible Spectrophotometry U V-VIS Spectrophotometry is used to determine the identity of a compound based on absorption or transmission of UV/VIS light . It can also be used to measure concentrations of absorbing materials based on developed calibration curves of the material. It is used extensively in the Pharmaceutical, Biotech, Environmental Testing, and Agricultural industries . Agilent 8453 Spectrophotometer The Agilent 8453 spectrophotometer comes equipped with all the diode-array advantages. It scans fast, has excellent sensitivity, virtually absolute wavelength reproducibility, exceptional ruggedness and reliability. It also has better than 2nm resolution, wavelength range of 190 to 1100 nm and less than 0.03 % stray light is standard . Cary 100Bio Spectrophotometer The Cary 100Bio spectrophotometer is equipped with variable slits that allow optimum control over data resolution down to an impressive 0.2 nm resolution . It also has a phase locked wavelength drive to prevent peak shifts and peak suppression at high scanning speeds, and the Cary Bio package with modules for all of your life science. Please contact us for more information and quotes on PRF \'s UV-Visible Spectrophotometry Services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[20]=new Array(65,"HPLC-GC.htm","2006-03-23","PRF - HPLC","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. High Performance Liquid Chromatography High Performance Liquid Chromatography is a common analytical tool used in a variety of applications such as identification, separation, purification and quantification of various compounds . In our facilities there are two different HPLC systems: Varian R&D Ternary HPLC Waters Breeze HPLC 1 . Varian R&D Ternary HPLC This system is equipped with ProStar 330 Photodiode Array (PDA) detector with prism technology that improves light efficiency and spectral imaging, producing high-resolution spectra . The system is also equipped with ProStar 230 Ternary Solvent Delivery Module and ProStar 410 Auto Sampler . Features and Benefits: • ProStar 330 Photodiode Array (PDA) detector : This detector features: programmable slit widths producing highest sensitivity and spectral resolution; dual-path length flow cells ; wavelength range from 190 to 950nm ; and accuracy of 1 nm . • ProStar 230 Ternary Solvent Delivery Module: This solvent delivery system features: gradient pumps that offer selectable one, two, or four-stroke proportioning; intelligent design assuring accurate and reproducible results; build-in automation allowing for up to five methods; and GLP compliance. • ProStar 410 Auto Sampler: This sampler features: variable injection volumes and auto-mixing/auto-diluting offering flexibility, ease of use, and precision; and reduced sample preparation time with easily programmable internal standard addition, sample dilution, or derivation steps . back to the top 2. Waters Breeze HPLC Our Waters Breeze HPLC system comes with Waters 2414 Differential Refractive Index (dRI) , and Waters 2487 Dual Absorbance detector both of which are unsurpassed in sensitivity, stability and reproducibility. It is also equipped with Waters 1525 Binary HPLC Pump , and Waters 717 plus Autosampler . With unsurpassed sensitivity, stability and reproducibility the Waters Breeze HPLC System provides a total sample analysis solution for many applications including sugar analysis, polymer analysis, preparative analysis and quality control applications. Features and Benefits: • Waters 2414 Differential Refractive Index (dRI): This detector features: high efficiency heat exchanger and flow cell temperature control ensuring stable and reproducible results; lowest dispersion volume makes it ideal for high-speed GPC and narrow bore column chromatography; and smart electronics neutralizes the effects of ambient temperature changes on signal response. • Waters 2487 Dual Absorbance detector: This detector features: patented TaperSlit flow cell ensuring the highest sensitivity while maintaining optimal spectral performance; linear dynamic range to simultaneously quantitative major and minor components for both routine and complex HPLC applications. • Waters 1525 Binary HPLC Pump: This HPLC Pump features: integrated high pressure gradient pumping system and on-board pulse dampening to minimize volume and provide the smooth, pulse-free solvent flow required by highly sensitive detectors. • Waters 717 plus Autosampler: This autosampler features: a highly reliable and extremely precise fluid path design that is versatile for all methods and applications; and advanced automation capabilities making it easy to develop methods. back to the top Please contact us for more information and quotes on Chemical and Bio-chemical Analysis . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",19);arrFiles[21]=new Array(66,"history.html","2006-03-23","PRF - History","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. History of Particle Research Facility The Particle Research Facility is dedicated to the advancement of research, innovation, and technological development through the provision of an affordable, easy to access facility and a platform for collaborative research and development. The Particle Research Facility was established in the fall of 2005 under the direction of Prof. Jesse Zhu , and Prof. Sohrab Rohani from the Department of Chemical and Biochemical Engineering , Faculty of Engineering , the University of Western Ontario . Prof. Jesse Zhu is the Canada Research Chair in Powder Technology Applications and Prof. Rohani is the Chair of the Department of Chemical and Biochemical Engineering, as well as the director of Control and Crystallization of Pharmaceuticals Laboratory . PRF is part of Particle Technology Research Western (PTRW) , which was formed to combine the efforts of researchers working in the powder technology and fluidization area and to create a world leading particle R&D facility . As an organization the PTRW facilitates the consolidation of efforts from a number of member professors and research groups totaling over a hundred graduate students, post doctoral research fellows and other researchers in the past 5 years. The PTRW also fosters enhanced collaboration with industrial and other external partners. The researchers involved with Particle Technology Research Western have been very successful and thus significant research funding has been received from NSERC, industrial collaborators and other sources. In particular, a large 4.8M grant was awarded to Profs. Zhu and Rohani on ultrafine powder technology by Ontario Research and Development Challenge Fund (ORDCF) in 2000 and two Infrastructure grants (1.7M + 5.2M) were given to Prof. Rohani (2001) and Prof. Zhu (2003) by Canada Foundation for Innovation (CFI) to provide important infrastructure support for particle research at Western. In 2004, a Tier-1 Canada Research Chair was also established with Prof. Zhu as the chair holder for powder technology applications within Particle Technology Research Western. In total, the core members have received over 15M of research funding in the past five years and have produced over 200 publications in the same period. Particle Technology Research Western now has over 10,000 sq ft of lab space and over 4M worth of instrumentation, plus another 1M of experimental apparatus including over 20 various fluidized bed reactors. Over 30 graduate students received their degree in the past 5 years under the direction of the core members . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",16);arrFiles[22]=new Array(67,"GC-MS.htm","2006-03-23","PRF - Gas Chromatography/ Mass Spectrometry","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Gas Chromatography/Mass Spectrometry Gas Chromatography/Mass Spectrometry (GC/MS) Gas Chromatography/Mass Spectroscopy is used to separate chemical mixtures (the GC component), and to accurately identify compounds using very sensitive detectors (the MS component). The Saturn 2200 GC/MS comprises of the CP-3800 GC , the 2000 Series Ion Trap MS and both a TCD detector and a FID detector . These compo-nents create a platform for the world’s most versatile GC and flexible MS. Under Saturn Workstation control, complex configurations become very simple to operate. Features and Benefits: • CP-3800 GC: The CP-3800 GC is Varian \'s top of line Gas Chromatograph with a flexible platform for single, dual, or three-channel configuration. It features: a spacious column oven that accommodates three or more columns; fast heat-up (100°C/min) and rapid cool-down column oven (400°C to 50°C in 4.5 min) allow for faster cycle times and increased productivity. • 2000 Series Ion Trap MS: The Saturn 2200 ion trap MS features: time range from 10 to 65 u; Selected Ion Storage (SIS) storing up to five ranges of ion; and scan rate fixed at 5600 u/sec to maximize spectral acquisition • TCD detector: The Thermal Conductivity Detector (TCD) is most commonly used for the detection of inorganic gases . The dual channel TCD automatically shuts off filament current to prevent detector damage in the event of an air leak or loss of carrier gas. Individual control of detector and filament temperature allows optimization of detector performance and decreases maintenance costs. • Flame Ionization Detector (FID): This detector is used for detection of organic compounds . The patented inert tip of the FID significantly reduces peak tailing and partial loss of polar or higher boiling analytes . Please contact us for more information and quotes on PRF \'s GC/MS Services. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",16);arrFiles[23]=new Array(68,"FTIR.htm","2006-03-23","PRF - Fourier Transform Infrared Spectroscopy","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Fourier Transform Infrared Spectroscopy Fourier Transform Infrared (FTIR) spectroscopy is a powerful analytical tool for characterizing and identifying organic molecules. Using the IR spectrum, chemical bonds and the molecular structure of organic compounds can be identified. A molecule that is exposed to infrared rays absorbs infrared energy at frequencies which are characteristic to that molecule. During FTIR analysis, a spot on the specimen is subjected to a modulated IR beam. The specimen \'s transmittance and reflectance of the infrared rays at different frequencies is translated into an IR absorption plot consisting of reverse peaks. The resulting FTIR spectral pattern is then analyzed and matched with known signatures of identified materials in the FTIR library. Please contact us for more information on FTIR analytical services available at PRF. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[24]=new Array(69,"extruder.html","2006-03-23","PRF - Twin Screw Extruders","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF - Twin Screw Extruder Twin-screw extrusion is used extensively for mixing, compounding, or reacting of polymeric materials . At PRF we have a high-speed co-rotating twin-screw extruder. The processing section of the unit is made up of several modular barrel sections which house the two co-rotating screw shafts. The barrel sections and screw elements can be freely combined so as to get an optimal arrangement matched specific processing needs. Features and Benefits: Extruder Specifications: Thorough Put: 40 Kg/hr , Screw Diameter: 30 mm , Length/Diameter Ratio: 16 , Main Motor: 7.5 kW , Screw Speed: 0 - 600 rpm , Feeder Motor: 0.12 kW , Heating Power: 3.2kW . C onveying Elements - The high-speed twin screw shaft is composed of shaft with spline or key, screw bushings for conveying and extrusion and kneading blocks for dispersion and homogenizing. The configuration of screw bushing and kneading block is changeable. High volume feed elements for the screw shafts provide improved material intake for materials with poor feeding characteristics. Kneading blocks and Dispersive Mixing Elements - The mixing and kneading elements are designed in a variety of lengths, pitches and pitch direction. The result is precise shear, melt and energy control plus homogeneous mixing of the melt and dispersion additives. The machine can be fed with powder, pellets, chips, glass fiber, pastes and liquids. Electronic Control Box - The high performance electronic control box in this unit has the advantages of high reliability, good comprehension, compact structure, and can lock the major technology parameters with cipher code. Extruder Barrel with heating/cooling units - There are a total of three heating/cooling zones in the extruder barrel. Please contact us for more information and quotes on our Twin-Screw Extruder . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[25]=new Array(70,"DSC-TGA.htm","2006-03-23","PRF - Thermal Analyses","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF - Thermal Analyses Differential Scanning Calorimetry (DSC) Thernmogravometric Analysis (TGA) Differential Scanning Calorimetry (DSC) Differential Scanning Calorimetry (DSC) is a thermal analysis technique used to measure the temperatures and heat flows associated with transitions in materials as a function of time and temperature. DSC data provide information about physical and chemical changes that involve endothermic and exothermic processes, or changes in heat capacity , and is commonly used in the plastics and adhesive industries, in safety technology, as well as in the chemical, pharmaceutical, food, electronics, and automotive industries. The Mettler Toledo DSC822e has a unique sensor design resulting in an unsurpassed combination of performance features such as flat baselines, very high sensitivity and excellent peak resolution . The ceramic sensor makes it the most robust instrument on the market and an ideal tool for measurements of thermal effects in R&D and QC environments . Features and Benefits: . Temperature Range: -150 °C to 700 °C . Excellent Baseline Stability :Circular thermocouple arrange-ment results in excellent baseline stability without mathematical data manipulation . High Resolution and Sensitivity: Measurement with the MultiSTAR FRS5 (56 thermocouples) sensor or MultiSTAR HSS7 (120 thermocouple) sensor results in high resolution and unsurpassed sensitivity back to the top Thermogravimetric Analysis (TGA) Thermogravimetric Analysis (TGA) is a technique for measuring changes in mass as function of temperature primarily used to determine the composition of substances . It is also used to analyze adsorption and desorption, reactions with purge gases, and ash content. From TGA curves, data on the kinetics and thermodynamics of the various chemical reactions, reaction mechanisms, reaction intermediates and final reaction products are obtained The Mettler Toledo TGA/SDTA851e offers thermo balance with superior weighing performance, the broadest sample size range as well as accurate control of gas volume and temperature based on our proprietary SDTA technology.	Features and Benefits: • Wide Measurement Range: (1 or 5 g) • Temperature Range: RT to 1600 °C: fast heating rate of 5 min from RT to 1100 °C, and cooling rate of 25 min from 1000 °C to 100 °C, and temperature accuracy of 0.25%. • Automatic Weight Calibration: Integrated in the micro- and ultra micro-balances is FACT automatic weight calibration. • FlexCalTM: This feature automatically corrects for heating rate, type of crucible, module and purge gas. back to the top Please contact us for more information and quotes on Thermal Analysis . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",17);arrFiles[26]=new Array(71,"Contact Us.html","2006-03-23","PRF - Contact Information","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF - Contact Information Particle Research Facility (PRF) Room 217, Thompson Engineering Building The University of Western Ontario London, Ontario, N6A-5B9 General Inquiry Phone: 519-661-2111 ext. 88912 Fax: 519-850-2441 E-mail: prf@powders.ca Facility Manager Mohammad Rahbari Phone: 519-661-2111 ext. 88912 Cell: 519-697-2035 Fax: 519-850-2441 E-mail: prf@powders.ca Facility Director Dr. Jesse Zhu Phone: 519-661-3807 Fax: 519-850-2441 E-mail: jzhu@uwo.ca Facility Director Dr. Sohrab Rohani Phone: 519-661-4116 Fax: 519-661-3498 E-mail: rohani@eng.uwo.ca Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[27]=new Array(72,"BET.htm","2006-03-23","PRF - BET Surface Area","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF - BET Surface Area Analysis Micrometrics ASAP 2010 BET The term BET was derived from the first initials of Burnauer, Emmett and Teller , and refers to the method of measuring the surface area and porosity of solid materials using the principals of physical adsorption and de-sorption of gas. The Micrometric \'s ASAP 2010 system has the versatility to characterize samples using a number of different adsorptive gases such as: Nitrogen, krypton, oxygen, carbon dioxide, carbon monoxide, and butane . The system performs automatic single-point and multi-point BET surface area measurements, as well as Langmuir surface area, Olivier-Conklin DFT (tm) analyses, full adsorption and de-sorption isotherms, pore size distributions, and pore volume distributions. The ASAP 2010 data acquisition system allows resolution of pores separated by only a fraction of an angstrom . The micro-pore system combines various techniques in one static-volumetric instrument such as: Harword-Kawazoe, Dubinin (both Astokhov and Radushkevich models), MP-Method, t-plot method, and Saito-Foley method . Sample tubes used in the system are available for various size pellets, cores and powders and pressure measurement range varies from 0 to 950 mmHg. Please contact us for more information on BET porosity or surface area analyses available at PRF. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[28]=new Array(73,"Toll.html","2006-03-23","PRF-Particle Processing Services","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF-Particle Processing Services The Particle Research Facility (PRF) offers a wide range of powder processing services. The facility is a consolidation of efforts from a number of member professors and research groups from the Faculty of Engineering at the University of Western Ontario . The group of engineers supporting the facility have been involved with research into powder fluidization, particle processing, crystallization, particle formation, and particle applications for more than 20 years . The knowledge accumulated from all these years of research gives PRF the superior expertise required for the most challenging needs of our customers. It also makes us the best suited facility for selecting the most appropriate and cost-efficient technology for your specific applications. PRF is also equipped with a complete list of analytical instruments to support our powder processing services, and ensure that we exceed our quality assurance commitments to our clients. Some of our powder processing services include: powder mixing, particle size reduction, powder classification, sifting, extruding, powder coating, powder coating formulation, drug coatings, spray drying, freeze drying, and particle formation. List of Particle Processing Services Provided by PRF: Powder Mixing Milling (ACM, spiral jet mill, fluidized bed opposed jet mill) Classifying and Sifting (turbo screen classifier, ultrasonic vibrating sieves) Extruding (Twin-Screw Extruder) Powder Paint & Powder Coatings Formulation/Application Spray and Freeze Dryers De-agglomeration For more information on our powder processing capabilities, please contact us . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",15);arrFiles[29]=new Array(74,"supercriticalFluid.htm","2006-03-23","The University of Western Ontario","Western Communications public affairs news media relations graphic standards web photos guidelines","communications graphic standards guidelines","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. Page Title (h1) Lorem ipsum dolor sit amet, consectetuer adipiscing elit. Maecenas consectetuer facilisis est. 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Nulla condimentum varius leo. Nullam condimentum varius felis. Donec molestie bibendum urna. Fusce sodales euismod massa. Nulla facilisi. Vestibulum ante ipsum primis in faucibus orci luctus et ultrices posuere cubilia Curae; Maecenas sed sem. Vivamus viverra fermentum dolor. Suspendisse sit amet nulla et elit vehicula fermentum. Mauris sed mauris in tortor molestie nonummy. Cras sollicitudin. Phasellus at sapien id magna aliquet sagittis. Also from this web page: Particle Research Facility Newsletter Location Western Directory Particle Technology Research Western (PTRW) Contact: Particle Research Facility Mohamad Rahbari, Lab Manager Phone: 661-2111 ext. 88912 Fax: 519-850-2441 Email: prf@powders.ca PRF Internet Thompson Engineering Building, Room 217,	London, Ontario, Canada, N6A 5B9 • Tel: (519) 661-2111 ext. 88912	Upadated: February 16, 2006 by Powder Research Facility See our policies on Privacy , and Web Standards",13);arrFiles[30]=new Array(75,"Quoteforms.html","2006-03-23","The University of Western Ontario","Western Communications public affairs news media relations graphic standards web photos guidelines","communications graphic standards guidelines","You are using a browser that is not standards-compliant (possibly Netscape 4). 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In pharetra magna eu magna. Nam a wisi vitae elit posuere eleifend. Ut vulputate. Nullam lobortis, lectus eu tristique semper, elit urna porttitor arcu, vel varius dui orci ut erat. Nam tempus convallis nulla. Donec fringilla interdum tellus. Cras vitae nunc ac nibh vestibulum lobortis. Nulla condimentum varius leo. Nullam condimentum varius felis. Donec molestie bibendum urna. Fusce sodales euismod massa. Nulla facilisi. Vestibulum ante ipsum primis in faucibus orci luctus et ultrices posuere cubilia Curae; Maecenas sed sem. Vivamus viverra fermentum dolor. Suspendisse sit amet nulla et elit vehicula fermentum. Mauris sed mauris in tortor molestie nonummy. Cras sollicitudin. Phasellus at sapien id magna aliquet sagittis. Also from this web page: Particle Research Facility Newsletter Location Western Directory Particle Technology Research Western (PTRW) Contact: Particle Research Facility Mohamad Rahbari, Lab Manager Phone: 661-2111 ext. 88912 Fax: 519-850-2441 Email: prf@powders.ca PRF Internet Thompson Engineering Building, Room 217,	London, Ontario, Canada, N6A 5B9 • Tel: (519) 661-2111 ext. 88912	Upadated: February 16, 2006 by Powder Research Facility See our policies on Privacy , and Web Standards",13);arrFiles[31]=new Array(76,"Newsletter.pdf","2006-01-17","Microsoft Word - Newsletter.doc","","","Particle Technology Research Western (PTRW) Newsletter    ",23);arrFiles[32]=new Array(77,"Service-Charges.pdf","2005-11-29","Eq-price list-2.xls","","","Standard Charges for Particle Research Facility (PRF) Services  Hourly / Sample  Hourly Hourly Hourly Per Sample  Services  Imaging Microscopy and Surface Analysis Hitachi Variable Pressure SEM / BSE / EDX Optical Microscopy with Hot Stage Dektak 8 Surface Profiling and 3D Mapping Rhopoint Surface Gloss Meter Particle Characterization Services X-ray diffraction (XRD) Analysis Particle Size Analysis (Laser Diffraction Technique) Aerodynamic Particle Size Measurement Molecular Weight Measurement Zeta Potential Measurement Sieve Analysis Bulk Powder Characteristic Measurement Particle porosity and Surface Area Measurements (BET) Chemical and Biochemical Analysis High Performance Liquid Chromatography Gas Chromatography Mass Spectrometry Thermal Analysis Thermogravimetric Analysis (TGA) Differential Scanning Calorimeter (DSC) Spectroscopy and other Analyses Fourier Transform Infra-red Spectroscopy (FTIR) UV-Visible Spectrophotometery  Internal Rate (UWO)   45.00  35.00  45.00  5.00  Per Sample Hourly Hourly Hourly Hourly Hourly Hourly Hourly   33.00  40.00  40.00  40.00  40.00  40.00  35.00  35.00  Hourly Hourly Hourly   45.00  55.00  55.00  Per Sample Per Sample   35.00  35.00  Hourly Per Sample   35.00  16.00  Particle Processing Services Mixing/Compounding** Size Reduction with an Air Classifying Mill (ACM)** Size Reduction Using a Jet-Mill ** Sieving/Classifying ** De-Agglomerating Extruding** Particle Foramation** Spray Drying Freeze Drying Hourly Hourly Hourly Hourly Hourly Hourly Hourly Hourly Per Sample  35.00  60.00  45.00  45.00  45.00  60.00  40.00  40.00  30.00  ** For these services the charges may vary from the listed value depending on the material and process requirements    ",7);arrFiles[33]=new Array(78,"temp.html","2005-11-17","temp.html","","","Sorry for the Inconvenience....... This Page is Under Construction...... Have a nice day!",1);arrFiles[34]=new Array(79,"High Sheer Mixer- brochure.pdf","2005-11-11","FL-PRO-GB-TGHK-GLP200103.cdr","","","High Speed Laboratory Mixer SYSTEM  + + + + + +  Maximum mixing precision Gentle product handling Reliable scale-up Versatility PLC/PC control systems for reproduceable processes Ergonomic design and perfect handling  L Ö D I G E - ALWAYS THE RIGHT MIX    High speed mixers, Papenmeier® system, operate on the principle of friction mixing in batch processes. In addition to the short mixing times for homogenization, the processing time can be extended to obtain precision heating of all particles. Product qualities obtained in laboratory mixers meet the standards expected by industry and are suitable, therefore, for rapid and complete scale-up.  High Speed Mixers, Papenmeier® System  Mode of Operation  Production - High Speed Mixer TSHK 630  The high speed mixing impeller in special, geometric design accelerates the mixing product both radially to the outside and upwards in a spiral to produce a distinct vortex. The combination of this three-dimensional product movement and the introduction of intensive friction provides targeted, uniform heating of the entire batch. Mixing impellers are selected specifically according to the mixing application and required increase in temperature. When vertical or horizontal cooling mixers are combined with the high speed mixer to form a Pxx-Compounder, heated product can be cooled gently in timecontrolled cycles to a temperature suitable for storage or further processing.  Pxx - Compounder TSHK 250 / HKB 900 Papenmeier® System  Sizes  Laboratory mixers  Type TGHK 10 TGHK 20 TGHK 40 Volumes in litres 9 20 45 W orking Capacity in litres 3-7 5 ­ 16 12 ­ 36 Driv e Power in KW 5,5 8,0 15  Rigid and flexible PVC Masterbatch Bonding powder coatings Toner Compounding thermoplasts with mineral or natural filler materials ! Coating powders or granulates ! Agglomerate-free moistening of bulk materials with liquids of different viscosities ! ! ! ! !  Range of Application  Optional Equipment  ! ! ! ! ! !  Vertical or horizontal cooling mixers Mixing impellers designed specifically for individual products Speed controlled drive Chopper units PLC or PC based control systems Project-specified peripheral components  Gebrüder Lödige Maschinenbau GmbH - Postfach 2050 D-33050 Paderborn - Elsener Straße 7-9 D-33102 Paderborn Telefon: +49/(0)5251/309-0 - Telefax: +49/(0)5251/309-123 - http://www.loedige.de - E-Mail: info@loedige.de  FL-PRO-GB-TGHK-GLP200503  © Gebr. 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Accelerated Weathering Services The manufacturing industry in North America is a technology driven sector that is fast paced and highly competitive. In many circumstances it is the ability of manufacturer to develop new products and improve on existing products in a fast, cost effective, and efficient manner that ultimately gives them the competitive edge. The Q-Sun Xenon Test Chamber provides fast, reliable weathering durability data. Xenon arc testing is the best available simulation of full-spectrum sunlight available because it includes ultra-violet, visible and infrared light. Q-Sun uses full spectrum xenon arc lamps to reproduce the damaging wavelengths of light encountered either indoors or outdoors. Features such as water spray, relative humidity control and chiller significantly expand the range of environmental conditions that you can simulate. The Q-Sun features a flat specimen mounting system that easily accommodates three dimensional products giving users maximum flexibility. For more information on Weathering Service with the Q-Sun Xenon Test Chamber please contact us at PRF . For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. Bld., Rm. 217 Tel: (519) 661-2111 ext. 88912 Fax: (519) 850-2441 Email: prf@powders.ca PRF Internet Particle Technology Research Western (PTRW) Faculty of Engineering The University of Western Ontario London, Ontario, Canada, N6A 5B8 Tel: (519) 661-2111 ext. 88912 Updated February 27, 2006 by Mohammad Rahbari See our policies on Privacy , and Web Standards",14);arrFiles[41]=new Array(86,"AnalyInstr.html","2006-03-24","PRF Analytical Instruments","Western Engineering","Faculty of Engineering - The University od Western Ontario","You are using a browser that is not standards-compliant (possibly Netscape 4). The information on this Web site will be accessible to you, but for a list of Web browsers that comply with the World Wide Web Consortium standards, please visit our Web standards page. PRF Analytical Instruments Particle Research Facility is equipped with a variety of analytical instrumentation. Our knowledgeable staff and researcher provide consistent, accurate and compreh-ensive analytical services in a friendly environment and at affordable rates. Imaging Instruments: Hitachi Scanning Electron Microscope (SEM) High Resolution Optical Microscopes X-Ray Diffraction (XRD) Analyzers: Rigaku MiniFlex XRD System Particle Size Analyzers: Malvern Mastersizer 2000 - Particle size analyzer TSI PSD 3603 - Regular and aerodynamic particle size analyzer Malvern Zetasizer 3000 HSA - Particle size, Zeta potential and MW Next Generation Impactor (NGI) - Aerodynamic particle size analyzer Powder Characteristic Tester: Hosokawa Micron Corporation - Powder Characteristic Tester Surface Profiler: Dektak 8 Surface Profiler Surface Gloss Meter High Performance Liquid Chromatography (HPLC): Varian R&D Ternary HPLC System Waters Breeze HPLC System Gas Chromatography/ Mass Spectrometry (GC/MS): Saturn 2200 GC/MS System DSC, TGA, and BET Analyzer: Mettler Toledo Thermo-gravimetric Analysis (TGA) Mettler Toledo Differential Scanning Calorimeter (DSC) BET Surface Area and Porosity Analyzer: Micrometircs ASAP 2010 BET Surface Area Analyzer UV-Visible Spectrophotometers: Agilent 8453 UV-Visible Spectrophotometer Cary 100Bio UV-Visible Spectrophotometer Weathering Research: Q-Sun Xenon Test Chamber Please contact us for more information and quotes on Analytical Instruments available at PRF. For information on standard Charges please click here . Also from this web page: Particle Research Facility (PRF) PRF History PRF Newsletter Contact Location Particle Technology Research Western (PTRW) Western Directory Contact Info Particle Research Facility Mohammad Rahbari, Manager Thompson Eng. 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