LIST of UNIVERSITIES INVOLVED with ACADEMIC STUDY and RESEARCH PROJECTS in BRAZING and SOLDERING (Status on February 2005)

LIST OF UNIVERSITIES INVOLVED WITH ACADEMIC STUDY AND RESEARCH PROJECTS IN BRAZING AND SOLDERING (Status on February 2005)

Reviewed and updated by Alexander E. Shapiro, AWS C3 Committee of Brazing and Soldering, Titanium Brazing, Inc., Columbus, OH ([email protected])

Part 1. BRAZING

University Personnel Characterization

USA

University of Illinois at Chicago, Prof. J. Ernesto Indacochea Brazing of ceramics Dept. of Civil and Materials Engineering ([email protected] ), Ph: (312)996-3428 842 W. Taylor Street, MC 246, Chicago, IL 60607 Fax: (312)996-2426 Auburn University, Prof. William F. Gale Brazing of titanium and TiAl alloys. Materials Research and Education Center, ([email protected]), Brazing of Nickel Aluminides. 201Ross Hall, Auburn, AL 36849 Dr. Daniel A. Butts TLP brazing of intermetallic materials. Dept. of Materials Engineering ([email protected]), Brazing and creep, thermal fatigue testing of 204 Wilmor Labs, Auburn, AL 36849-5351 Ph: (334)844-3366, Fax: (334)844-3400 Nb-1Zr alloy to stainless steel. T. Zhou, S.V. Orel, L.C. Parous, J.Y. Lui, S. Chen, T. Bao, W. Yu, R.H. Zee, B.A. Chin ([email protected]), Brazing of vanadium and C-C composites to Ph: (334)844-33226, Fax: (334)844-3400 stainless steel for fusion reactor application. D. Taarea ([email protected]) Brazing of dispersion-strengthened copper. Ph: (334)844-3406, Fax: (334)844-3400 Brazing of nickel superalloys and ceramics. R.V. Steward ([email protected]) Brazing stainless steel to vanadium alloys. Ph: (404)894-2847 North Carolina State University, S.D. Wolter ([email protected]) Brazing of silicon to polycrystalline diamonds Dept. of Materials Science and Engineering Ph: (919)515-7083 Raleigh, NC 27695 G.N. Yushin, F. Okuzumi, Z. Sitar University of Cincinnati, Dr. R.Y. Lin, C.A. Blue, R.A. Blue Brazing of TiAl alloys and titanium matrix Dept. of Materials Science and Engineering J. Li, P. Deshpande, J. Seok, Y. Wang, composites. Infrared brazing. ML #12, Cincinnati, OH 45221-0012 1 Raj N. Singh Brazing of yttrium-stabilized ZrO2 ceramic to FeCrAlY alloy using Ag-CuO filler metal for solid oxide fuel cell devices Carnegie Mellon University, K. Barmak ([email protected]) Interaction of Fe-Cr alloys with Al melt Dept. of Materials Science and Engineering V.I. Dybkov ([email protected]) Pittsburgh, PA 15213

Massachusetts Institute of Technology, Prof. Thomas W. Eagar ([email protected] ) Brazing of steel wide-gap joints by composite Dept. of Materials Science Ph: (617)253- 3229 filler metals. Brazing of titanium alloys. Cambridge, MA 02139 W.D. MacDonald, S.T. Buljan TLP brazing. Abrasion-resistant active brazing filler metals Lehigh University, W. Liu ([email protected]) Brazing of dissimilar nonocrystalline Dept. of Materials Science and Engineering Ph: (610)758-4270 materials 5 E. Packer Ave., Bethlehem, PA 18015 Wright State University, P. Dadras ([email protected]) , Reaction brazing of C-C composites by Dept. of Mechanical and Materials Engineering, Ph: (513)873-5088, Fax: (513)873-5009 synthesis of carbides or silicides in the joint. Dayton, Ohio 45435 G.M. Mehrotra Ultra-heat resistant joints of graphite. Brazing of copper to beryllium by Al-12Si filler metal Alfred University, NYSCC Dr. A. Meier, D. Palit Reactive brazing of copper to AlN ceramics Dept. of Ceramic Engineering and Materials ([email protected]) Science, 2 Pine Street, Alfred, NY 14802 Ph: (607)871-2274, Fax: (607)871-3047 University of Kentucky, D.P. Sekulic ([email protected]) Brazing of aluminum structures. College of Engineering, Center for Robotics and Ph: (859)257-2972 Fax: (859)257-1071 Manufacturing Systems Lexington, KY 40506-0108 Chemical and Materials Engineering Dept. Prof. J.G. Morris Brazing of aluminum in controlled Lexington, KY 40506-0108 atmospheres

Colorado School of Mines, Prof. Stephen Liu - Ph:(303)273-3796, Brazing of ceramics. Center for Welding, Joining and Coating J.J. Moore, C. Suryanarayana Microwave and combustion synthesis brazing Dept. of Metallurgical & Materials Engineering 1500 Illinois Street, Golden, CO 80401 of diamond to WC tools. University of California at Santa Barbara, D. R. Clarke Thetmodynamics and contact interaction of Materials Dept. Peter Maxwell Ph: (805)893-5930 liquid metals with alumina ceramics Santa Barbara, CA 93106-5050 Dr. Tony Evens Ph: (805)893-7839 University of California, M.R. Locatelli, R.A. Marks, D.R. Chapman, Diffusion (TLP) brazing of structural Dept. of Materials Science and Engineering J.D. Sugar, R.M. Cannon, J.J. Kruzic, ceramics. Berkeley, CA 94720 2 R.A. Marks, D.T. Danielson, A.M. Glaeser, Hot strength and fatigue of alumina ceramics ([email protected]) joints brazed with Cu/Nb/Cu interlayer Tuskegee University, Y.X. Gan, H.A. Aglan ([email protected]) Mechanical properties of vanadium/stainless Mechanical Engineering Dept. Ph: (334)727-8973, Fax: (334)727-8090 steel brazed joints Tuskegee, AL 36088 Georgia Institute of Technology, R.V. Steward Mechanical properties of vanadium/stainless School of Materials Science and Engineering steel brazed joints Atlanta, Georgia 30332 University of Texas at El Paso, Prof. A. Bronson, Dr. C. Odegard Reactive processing and brazing of ceramic- Dept. of Metallurgical & Materials Engineering metal composites El Paso, TX 19968 University of Texas at Austin, Gilbert Stark Ph: (512)259-5652 Balconies Research Center Austin, TX 78712 Rensselaer Polytechnic Institute, Prof. R.W.Messler Jr., L.E. Felton Brazing of ceramics and intermetallics by Dept. of Materials Engineering, Materials Joining M. Jou, T.T. Orling self-propagating high-temperature synthsis Laboratory Troy, NY 12180 L.W. Graham (Combustion sysnthesis). Brazing of functionally-gradient joints Harvard University, W.J. Croft, W.J. Moberly-Chan Brazing of CVD-coated ceramics by Ag-Cu- Cambridge, MA Ti-Al active filler metals The Pennsylvania State University, R.K. Enneti, K. Cowan, N.Myers, Evaluation of microstructure of WC-Co Powder Metallurgy Lab R.M. German carbide joints brazed with Ni-based filler University Park, PA metals Cleveland State University L.M. Cosgriff Ultrasonic testing of brazed joints of 17-4PH Cleveland, OH 44135 stainless steel heat exchangers University of Missouri-Rolla, W.G. Fahrenholtz Reactive brazing of alumina using Al Ceramic Engineering Dept. interlayer. Rolla, MO 65409 Dept. of Metallurgy J. Bao, J.W. Newkirk Wear-resistant WC coating by brazing Rolla, MO 65401 University of Wisconsin, Prof. Xiaochun Li Evaluation of brazing for joining fiber optic Dept. of Mechanical Engineering sensors Madison, WI University of Virginia, Gary J. Shiflet, V. Ponnambalam, Amorphous Fe-Mn-Cr-Mo-C-B-La alloys Dept. of Materials Science and Engineering S. Joseph Poon ([email protected]) with liquidus in the range of 1120-1140oC Charlottesville, VA 22904-4745 Mike Shelton Ph:(804)924-1485 David Sypeck Ph:(804)924-1487 Kennet D. Ervin Ph:(434)982-4783

3 Iowa State University, D.J. Sordelet, X.Y. Yang Amorphous and mechanically-alloyed Zr-Ti- Dept. of Aerospace Engineering and Mechanics Nb-Cu-Ni-Al filler metals 222 M.D. Ames Laboratory, Ames, IA 50011 Washington State University, Jens Darsell Brazing of alumina ceramics using heat- School of Mechanical and Materials Engineering resistant Pd-Ag-CuO filler metal Pullman, WA 99164-2920 University of Illinois at Urbana, Tony Banks Ph: (217)333-2133 Materials Research Lab. 104 South Goodwin, Urbana, IL 61801 University of Rochester Paul Funkenbusch Ph: (716)275-4074 Rochester, NY University of South Carolina Tony Reynolds Ph: (803)777-9548 SC Pennsylvania State University, Don Heaney Ph: (814)865-7346 118 Research West, University Park, PA 16802 Cell: (814)280-0627 Worchester Polytechnic Institute, Tim Doyle Ph: (508)831-5637 Metal Processing Institute, 100 Institute Rd., Worchester, MA 01609

Japan

Osaka University, OU has M.S. and graduation academic Dept. of Welding and Production Engineering K. F. Kobayashi, K. Uenishi, H. Sumi, programs in brazing and soldering 2-1Yamada-oka, Suita, Osaka 565, Japan technologies. Joining and Welding Research Institute Prof. Masaaki Naka Brazing of TiAl alloys using self-propagating 11-1 Mihogaoka, Ibaraki, Osaka 567-0047, Japan ([email protected]) synthesis reactionor aluminum filler metal. Ph: +81-06-877-5111, Fax: +81-06-879-8689 Brazing of ceramics. Diffusion bonding of Ti3SiC2 intermetallic to Dr. N.F. Gao, Y. Miyamoto, Ti-6Al-4V alloy. Dept. of Manufacturing Science & Engineering Makoto Takahashi Interfacial reaction in glass/metal joints in an 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan ([email protected]) electrostatic field. Ph: +81-6-6879-8664, Fax: +81-6-6879-8689 TLP brazing of Ni-superalloy single crystals. K.Ikeuchi, K. Nishimoto, Brazing of aluminum in controlled K. Saida ([email protected]) atmospheres. T. Kimata ([email protected]) Brazing of NiAl alloy to cast iron by hot Fax: +6-6879-7570 pressing

Tokyo Institute of Technology, Prof. T. Onzawa Ph: +81-3-5734-2533 Brazing of titanium alloys. Faculty of Engineering 4 2-12-1 Oho-Okayama, Meguro-ku, Tokyo 152-8852, A. Suzumura([email protected]) Brazing of ceramics and diamonds with Japan T. Yamazaki active filler metals. ([email protected]) Brazing of titanium matrix composites K. Takagami reinforced with SiC fibers Hokkaido University, M. Kudoh, K. Matsuura, T.Ohmi Reactive brazing of stainless steel to NiAl. Division of Material Science and Engineering Brazing through synthesis of NiAl alloy to Kita 13 Nishi 8, Kita-ku, Sapporo, Hokkaido 060-8628, Japan TiC-Ni and Al2O3-Ni cermets Aoyamagakuin University, T. Osawa Diffusion brazing of Al casting College of Science and Technology Tokyo, Japan Hiroshima University, S. Masumoto, A. Moshida, M. Yoshida, Brazing of aluminum to copper. Graduate School of Engineering K. Shinozaki Brazing of dissimilar base metals with Al-Si- Hiroshima, 739-8527, Japan Dept. of Mechanical System Engineering F. Yoshida, Xin Ma Mg-Bi filler metal. 2-313, Kagamiyama, Higashi-Hiroshima, 739-8527, ([email protected]) Mechanical testing and solidification of Japan Ph: +81-824-24-7540; +81-90-6419-3419 aluminum joints brazed in controlled Fax: +81-824-24-7881 atmosphere

Okayama University of Science, Dr. Y. Hiraoka ([email protected]) Brazing of molybdenum to siliconized School of Science, Dept. of Applied Physics Ph: +81-86-256-9479, Fax: +81-86-256-9479 graphite with Pd-Ti and Pd-Si filler metals 1-1 Ridai-cho, Okayama-City 700-0005, Japan S. Yamamoto Ehime University H. Toyota, T. Ide, H. Yagi Wetting of graphite and C/C composites by Dept. of Mechanical Engineering molten metals 3 Bunkyo-cho, Matsuyama, Ehime 790-8577, Japan KINKI University, Y. Fukaya, A. Ikuta, T. Ihara, M. Andou, Brazing of graphite with active Ag-Cu-Ti and Faculty of Engineering T. Kobayashi Ni-Cr-B filler metals 11-6 Kayanomori, Lizuka City, Fukuoka 820, Japan Tokai University, Dr. Y. Miyazawa ([email protected] Brazing of titanium and stainless steel. Dept. Of Materials Science tokai.ac.jp ), Ph: +81-463-58-1211, Brazing of stainless steel using Ni-Cr-Si-P 1117 Kitakaname, Hiratsuka-shi, Kanagawa-ken 259- 1292, Japan Fax: +81-463-50-2096 filler metal. Prof. T. Ariga Ph: +81-463-58-1211, Diffusion brazing of copper. K Denda, Y. Miyamoto Tohoku University, N. Nomura ([email protected]) Reactive brazing of molybdenum to Mo-ZrC Institute for Materials Research Ph: +81-22-215-2118, Fax: +81-22-215-2116 composite. Sendai 980-8577, Japan Dept. of Materials Processing K. Yoshimi, S. Hanada Sendai 980-8577, Japan T. Suzuki, S. Nakatani School of Mechanical Engineering, Lab. of F. Zhou ([email protected]) Brazing of Si3N4 ceramics using liquid-phase Tribology ceramic filler Y2O3-Al2O3-SiO2-TiO2. 5 Sendai 980-8579, Japan ceramic filler Y2O3-Al2O3-SiO2-TiO2. Nippon Dental College R. Yoshida Brazing of dental titanium alloys by silver filler metals Tokyo Medical Dental University, K. Kuroda Silver brazing of Ti-ni alloy to Co-Cr alloy Faculty of Dentistry wires Tokyo 113, Japan Fukui University, Prof. K. Takeshita, Y. Terakura Brazing of titanium with Al filler metals. Dept. of Mechanical Engineering FEM modeling of tensile strength of brazed Fukui 910-8507, Japan joints Kumamoto University, Y. Morizono, M. Nishida, A. Chiba Active brazing of AlN ceramics Dept. of Mechanical Engineering & Materials Science 2-39-1 Kurokami, Kumamoto-shi 860-8555, Japan The University of Tokyo, T. Iwai Brazing of copper to 316L stainless steel for Center of Nuclear Science and Technology nuclear reactor devertor components. Ibaraki 319-1106, Japan Gunma University, S. Takayama, Y. Arikura, I. Shohji, Brazing of stainless steel heat exchangers Faculty of Engineering T. Nakazawa, Y. Kawabata with BNi-2. 1-5-1 Tenjin-cho, Kiryu 376-8515, Japan Brazing of molybdenum heater by Au-18Ni (Bau-4) filler metal Iwate University, T. Kaneko ([email protected]) , Brazing and mechanical testing of ceramic Faculty of Engineering, Superconductivity Research Ph: +81-19-635-9015, Fax: +81-19-635-9017 YBCuO blocks using ceramic Er-Ba-Cu-O Laboratory 4-3-5 Ueda, Morioka 020-8551, Japan A. Murakami, K. Katagiri filler Nichon University, H. Izui, Y. Suezawa Mechanical testing of brazed joints of Inconel Dept. of Aerospace Engineering 600 made with Pd-Ni-Co-B/Cu filler metals Chiba 274, Japan Toyama National College of Technology S. Urai Brazingof ceramics with Cu-Sn-Ti and Cu-Zn-Ti active filler metals Niigata University, Takehiko Watanabe Halogen surface treatment of magnesium Dept. of Mechanical Engineering ([email protected]) alloys for brazing. Fluxes for brazing 8050 Ikarashi 2 Nocho, Niigata 950-2181, Japan Harytaka Adachi, Shiko Komatu, Atsushi magnesium alloys Yanagisawa, Shizuyo Konuma Kyushu Institute of Technology, K. Nishio Diffusion brazing of molybdenum to titanium. Dept. of Materials Science and Engineering Kitakyushu 804-8550, Japan Research Incstitute for Applied Mechanics T. Muroga Brazing of copper to 316L stainless steel for Fukuoka 816-8580, Japan nuclear reactor devertor components. Kyoto University, S.J. Son ([email protected]) Brazing of tungsten to SiC plasma-facing Graduate School of Energy Science Ph: +81-774-38-3465, Fax:+81-774-38-3467 components. 6 Gokasho Uji, Kyoto 611-0011, Japan K.H. Park, A. Kohyama Reactor Research Incstitute Q. Xu ([email protected]) Brazing of copper to 316L stainless steel for Kumatori-cho, Sennan-gun, Osaka, 590-0494, Japan Ph: +81-724-51-2417, Fax:+81-724-51-2620 nuclear reactor devertor components. T. Yoshiie Osaka Prefecture University, A. Ikenaga Brazing of NiAl alloy to cast iron by hot Dept. of Metallurgy and Materials Science pressing 1-1 Gakuen-cho, Sakai, Osaka 599-8531, Japan

Russia Moscow State Aviation Technological University Prof. Yuri S. Dolgov, Prof. Vadim A. Frolov MATI has B.S., M.S., and graduation (MATI), Ph: +7-095-141-9454 academic programs in brazing/soldering Dept. of Welding and Brazing of Aerospace Materials Dr. Nikolai S. Pronin technology and prepares brazing engineers for Orshanskaya 3, Moscow 121552, Russia Aerospace, Automotive, and Energy Ph: (095)141-1940, Fax: (095)141-1950 industries. The scientific interests are in [email protected] brazing aluminum, titanium and nickel alloys, ceramics, and composites; light-beam brazing; silver-free filler metals for joining copper and steels. My Alma Mater. Moscow Engineering Physics Institute Prof. Boris A. Kalin ([email protected]) Manufacturer of Ti-based, Zr-based, and Ni- Kashirskoe Shosse. 31, Moscow 115409, Russia Ph: +7-095-324-3165 based amorphous filler metals for brazing Dr. Oleg N. Sevrjukov titanium alloys, superalloys, and ceramics. ([email protected]) Brazing of graphite and refractory metals for Ph: +7-095-323-9268, nuclear reactor applications Dr.V.T. Fedotov, A.E. Grigoriev, A.N. Pliushev, L.A. Skuratov, V.I. Polsky, V.L. Yakushin Toliatti State University, Prof. Alexander Y. Krasnopevtsev The University has B.S., M.S., and graduation Dept. of Brazing and Soldering Ph: +7-8482-296-671, academic programs in brazing and soldering Belorusskaya Str. 14, Toliatti, Samara region 445667, Russia ([email protected] ) technologies and prepares engineers mostly Prof. Boris N. Perevesentsev for Automotive industry. The scientific ([email protected]) interests are in brazing steels in reducing Ph: +7-8482 -296-671, atmospheres, vacuum brazing of titanium Fax: +7-8482 -229-522 alloys, soldering of electric systems.

Moscow State Metallurgical Institute, Prof. Alexander P. Ternovsky The MMI has B.S. and M.S. academic Dept. of Welding Engineering Ph: +7-095-267-4107, Fax: +7-095-261-6848 programs in brazing and soldering technologies. The scientific interests are in 7 brazing and soldering of aluminum and titanium alloys, diffusion joining Lefortovskyi val 26, Moscow 111250, Russia Prof. Yuri I. Bereznikov, technologies. The scientific interests are in Ph: +7-095-329-0021 brazing and soldering of aluminum and Dr. Tamara V. Samsonova titanium alloys, diffusion joining Ph: +7-095-267-4107 Moscow State Engineering Institute of Civil Prof. Victor P. Frolov The MSEI-CA has M.S. and graduation Aviation, Ph: +7-095-459-0752 academic programs in brazing and soldering Dept. of Aircrafts Repair Moscow, Russia technologies. The scientific interests are in brazing and soldering of materials used in Aircraft Industry, brazing for repair, automatization of brazing processes. Prof. V.P. Frolov is the Chairman of Russian Brazing/Soldering Committee Kabardino-Balkaria State University, Prof. A.A. Ahkubekov, B.Z. Kanchukoev The K-BSU has M.S. and graduation academic programs in brazing and soldering. The scientific interests are in wettability, physical-chemical effects in brazing and soldering, thermodynamics Moscow State Technical University im. Bauman Prof. Oleg I. Steklov Corrosion of brazed joints. (MVTU), Dept. of Welding Engineering Dr. Valeryi M. Nerovny Arc brazing of cemented carbides and cermets Moscow 107005, Russia to superalloys Ural State Technical University L.A. Zhukova, A.A. Zhukov, O.P. Solntseva, Structure formation of metal eutectic melts Ekaterinburg, Russia L.P. Golovushkina

Ukraine

The E.O. Paton Electric Welding Institute, Prof. Victor F. Khorunov The Paton Institute has graduation academic Dept. of Physical-Chemical Processes of Brazing Ph/Fax: +380-044-227-2677, programs in brazing and soldering. The and Soldering 11 Bozhenko St., Kiev, 03680, Ukraine [email protected], scientific interests are in brazing of : Ni(Co)- Dr. S.V.Maksymova Ph: +380-044-227-1434, base superalloys, including repair brazing, Fax: +380-044-227-2677 intermetallics such as TiAl and NiTi, [email protected], refractory metals and graphite for nuclear O.M. Sabadash Ph: +380-044-227-4658, applications, oxide-dispersion strengthened Fax: +380-044-227-2677 Cu-alloys, titanium heat exchangers and pipes, metal matrix composites, honeycomb structures for rockets, cutting tools, dissimilar metals, and fluxes for brazing aluminum. Manufacturer of rotary vacuum furnaces for brazing. 8 Manufacturer of rotary vacuum furnaces for brazing. Ukraine State Shipbuilding University Prof. Victor F. Kvasnitskiy The USNU has B.S., M.S. and graduation Nikolaev, Ukraine Ph: +380-0512-35-5389 or 0512-39-7318 academic programs in brazing technologies Fax: +380-0512-39-7326 and prepares brazing engineers mostly for Dr. A.M. Kostin, Navy and Shipbuilding industry. The Dr. B.B. Kvasnitskiy, A.N. Vorobiev scientific interests are in brazing of Ni-Cr- and Co-Cr-based superalloys and stainless steels, and properties of heat-resistant brazed joints. Mogilev State Technical University Dr. Y.A. Tsumarev, I.V. Tarasenko Fatigue testing of brazed joints Mogilev, Ukraine National University im. Mechnikov, A.M. Diachenko, I.M. Mikhailovsky Surface tension at the crystal/melt interface Odessa, Ukraine

Canada Universite du Quebec a Chicoutimi, M. Bouchard, H. Liu Wettability of C-C and metal matrix 555 Boulevard de l’Universite, Chicoutimi, Quebec composites with Al and Al-Si filler metals G7H 2B1, Canada McGill University, Prof. Robin A. Drew ([email protected]) TLP brazing of silicon nitride to iron Dept. of Metals and Materials Engineering Ph: (514)-398-1773, Fax: (514)398-4492 aluminide. 3610 University St., Montreal, Quebec, Canada H3A 2B2 M. Brochu , F. Edelman Wetting of Iron Aluminide alloys. Brazing of 347 stainless steel using Ni-36Pd- 10Cr3B-0.6Si filler metal. Carleton University, X. Huang Diffusion brazing of titanium honeycomb Dept. of Mechanical and Aerospace Engineering structures Ottawa, Ontario, Canada Concordia University, M. Pugh Wetting of Iron Aluminide alloy. Dept. of Mechanical Engineering Melting of Cu-coated titanium powder 1455 Blvd. De Maisonneuve West, Montreal, Quebec, Canada H3G 1M8 University of Waterloo, Michael L. Kuntz ([email protected]) Diffusion (TLP) brazing. Dept. of Mechanical Engineering Ph: (519)888-4567 ex. 6167 200 University Avenue W., Waterloo, Ontario, Canada N2L 3G1 S.F. Corbin Melting of Cu-coated titanium powder University of Toronto, Prof. Thomas H. North Ph: (416)978-3012 Diffusion (TLP) brazing of alumina ceramics Dept. of Metallurgy and Materials Science Y. Zhai to metal matrix composites College St., Wallberg Bldg., Toronto, ON, Canada , M5S 1A4 University of Manitoba, N.L. Richards, Q. Xu, Diffusion brazing of titanium honeycomb structures. 9 Dept. of Mechanical and Industrial Engineering M.C. Chaturvedi ([email protected]) structures. Winnipeg, Manitoba R3T 5V6, Canada N. Goel, O.A. Ojo Diffusion brazing of TiAl. Diffusion brazing of cast Inconel 738

Germany Aachen University of Technology, Prof. Eric Lugscheider The Aachen University has B.S., M.S., and Materials Science Institute ([email protected]) graduation academic programs in brazing Templergraben 55, Aachen, D-52062, Germany Ph: +49-241-166020 Fax: +49-241-1660217 and soldering technologies. The scientific or Juelicher Strasse 344a, Aachen, D-52070, Germany U. Broich, M. Aulerich interests are in brazing of advanced metals, S. Ferrara ([email protected]) cermets, and ceramics, laser brazing, wide- H. Janssen, A. Reimann, B. Wildpanner, gap brazing, etc. G. Kortenbruck, K. Scheer, Welding and Joining Institute U. Dilthey, F. Hoeker Arc (GMA) brazing Pontstrasse 49, Aachen 52062, Germany Chemnitz University of Technology, Prof. Bernhard Wielage The University has M.S., and graduation Institute of Composite Materials ([email protected]) Chemnitz, D-09107, Germany academic programs in soldering and brazing Ph.:+49-371-531-6169 technology. Scientific interests are in brazing Fax: +49-371-531-6179 of advanced structural materials: TiAl, composites, ceramics, etc. Silke Muecklich ([email protected]), Corrosion resistance of steel to ceramic Ph: +49-371-531-5384 brazed joints Fax: +49-371-531-6179 Fluxless soldering and brazing of magnesium alloys and mixed joints with Zn-Mg-Al filler Ina Hoyer materials Ph: +49-371-531-5232 Fax: +49-371-531-6179 Brazing of titanium alloys including TiAl ([email protected]) alloys Furnace brazing of aluminum alloys with Al- Thomas Grund Zn filler metals Ph: +49-371-531-5356 Fax: +49-371-531-6179 Fe-based high temperature filler materials ([email protected]) Chemnitz University of Technology, Heiko Lang([email protected]) Brazing of aluminum foams for heat Dept. of Materials Science Ph: +49-0-371-531-3295, exchangers. Reichenhainer Strasse 70, Chemnitz 09126, Germany Fax: +49-0-371-531-2441 10 Dortmund University, Prof. H.-D. Steffens Ph: +49-231-755-2446 The University has M.S., and graduation Baroper Strasse 301, Dortmund 44227, Germany D. Ashoff, J. Wilden, academic programs in brazing technology. Dr. W. Tillmann, A.M. Osmanda Scientific interests are in strength and fracture of brazed joints, brazing of advanced metals and ceramics. Brazing of CVD diamond films. Brazing of titanium alloys. Westsaechsischen University Prof. Holger Klose Composite filler metals for brazing ceramics. Zwickau, Germany Ceramic to steel brazing using active filler metals. Corrosion resistance of joints Technical University of Clausthal, Prof. Schmid-Fetzer, Dr. T. Studnitzky Diffusion brazing (TLP process) of refractory Institute of Metallurgy metals Robert Koch st. 42, Clausthal-Zellerfeld, D-38678, Germany University of Hannover, Prof. F.W. Bach, E. Doege, I. Kutlu, Brazing of ceramic inserts in forging dies. Institute of Materials Science A. Huskic ([email protected]) Active brazing of ceramics to cemented Appelstrasse 11A, Hannover 30167, Germany T.A. Deisser ([email protected]) carbides. Dr. K. Mohwald, Dr. U. Hollander Brazing with thermal spraying. Brazing of titanium alloys. University of Stuttgart, Dr. H. Naefe Ph: +49-711-689-3113 Glass brazing of ZrO2 ceramic with metals Research Powder Metallurgical Laboratory Fax: +49-711-689-3131 Heisenbergstrasse 3, Stuttgart 70569, Germany ([email protected]) Technische Universitat Ilmenau, J. Wilden, J.P. Bergmann Laser brazing of zinc-coated steel. Ilmenau, Germany Technische Universitat Darmstadt, Prof. J. Eckert Amorphous and mechanically-alloyed Zr-Ti- FG Physikalische Metallkunde Nb-Cu-Ni-Al filler metals Petersenstrasse 23, Darmstadt 64287, Germany

United Kingdom

The University of Nottingham, P.H. Bond Brazing in turbine applications. Dept. of Materials Engineering and Materials J.G.P. Binner ([email protected]) Microvave brazing of SiC to zirconia Design, University Park, Nottingham, UK University of Cambridge, D.R. Ormston, K.M. Knowles, Active brazing of ceramics Dept. of Materials Science and Metallurgy D.B. Conquest, A.T. Van Helvoort Pembroke St., Cambridge, UK, CB2 3QZ Brunel University J. Li, P. Xiao ([email protected]) Brazing of heat-resistant ceramic joints. 11 Dept. of Materials Engineering Uxbridge, UK, UB8 3PH T.I. Khan TLP brazing of superalloys and stainless Dept. of Design, Faculty of Technology Runnymede, Surrey, UK steels University of Manchester, B. Derby ([email protected]) Interface reactions between Ti-doped tin and Materials Science Center alumina Grosvenor Street, Manchester, UK, M1 7HS University of Sheffield, H. Johnes ([email protected]) Wettability of aluminum nitride AlN by Dept. of Engineering Materials Ag-Cu-Ti active brazing filler metals Sheffield, UK, S1 3JD

Australia

University of Sydney. X.P. Zhang ([email protected]) Dissolution of base metals in liquid brazing School of Aerospace, Mechanical and Mechatronic Ph: +61-2-935-17146, Fax: +61-2-935-17060 filler metal Engineering, Center of Advanced Materials Technology Sydney, NSW 2006, Australia

Danmark

The Technical University of Denmark, K.A. Thorsen Brazing of cemented carbides. Dept. of Metallurgy, Lingby, DK 2800, Denmark Dept. of Manufacturing Engineering P. Henningsen ([email protected]) DTU-Building 425, Lingby, DK 2800, Denmark Ph: +45-4-525-4618

Sweden Jonkoping University, L. Ljungberg Brazing of graphite with active Ag-Cu-Ti School of Engineering filler metals Box 1026-551, 11 Jonkoping, Sweden University of Scoevde, L.Y. Ljungberg Wetting and brazing of alumina ceramics with Dept. of Engineering Science, SE-54128, Sweden active Ag-Cu-Ti filler metals

Norway

The Norwegian Institute of Technology, B. Bjorneklett, O. Grong Brazing of dispersion-strengthened aluminum Dept. of Metallurgy alloys Trondheim, Norway

12 Netherlands Delft University of Technology, J. H. de Wit Corrosion of aluminum brazing alloys Dept. of Materials Science and Technology Rotterdamseweg 137, 2628 Al Delft, The Netherlands France

Universite de Champagne-Ardennes, A. Lodini Brazing of C-C composites to molybdenum Reims, France for cooling system of fusion nuclear reactor Universite Joseph Fourier, O. Dezellus, M. Jeymond, N. Eustathopoulos Wetting, reaction and brazing of graphite and Institute National Polytechnique de Grenoble ([email protected]), R. Voytovych, ceramics with active Ag-Cu-Ti filler metals. 1130 rue de la Piscine, 38402 Saint-Martin-d’Heres, Cedex, France Dr. F. Saint-Antonin ([email protected]) Al-Ge-based rheocast brazing filler metals. Ph: +33-76-885477, Fax: +33-76-889463 Interfacial reaction and wetting in V. Ghetta, F. Hodaj, P. Meneses, Pd-Mg/Al2O3 system. L. Courdurier, 101 rue de la Physique, BP 46, 38402 Saint-Martin- M. Suery ([email protected]) Brazing of plasma facing components with d’Heres, Cedex, France Ph: +33-47-6826342, Fax: +33-4-7-6826382 Al-Ge filler metals in semisolid state

Faculte de Pharmacie, E. Dichi ([email protected]) Phase composition in Sn-Cd-In alloys Laboratoire de Chemie Physique Minerale, EA. 401 Fax: +33-1-46-835454 Paris XI, 5 rue J.B.Clement, Chatenay-Malabry 92296, France B. Legendre

Israel Technion University, Dr. Olga Botstein ([email protected]) Brazing of titanium and magnesium alloys. Israel Institute of Metals Ph: +972-4-823-5104 Titanium heat exchangers. Technion City, Haifa 32000, Israel Dept. of Materials Engineering G. Levi, W.D. Kaplan Thermodynamics and contact interaction of Technion City, Haifa 32000, Israel ([email protected]) liquid metals with alumina ceramics. E. Rabkin Liquid metal penetration in metallic polycrystals, liquid metal embrittlenes Ben-Gurion University of Negev, Dr. Natalya Froumin Wetting and reaction of active filler metals Dept. of Materials Engineering ([email protected]), Ag-Cu-Ti on AlN ceramics P.O. Box 653, Beer-Sheva, Israel Ph: +972-8-647-2490, Fax: +972-8-647-7148

China

Harbin University of Science and Technology, Feng-Lian Sun ([email protected]) Brazing of CVD diamond thick film and Dept. of Mechanical Engineering graphite using Ag-Cu-Ti filler metals. 13 Harbin 150080, People Rep. China graphite using Ag-Cu-Ti filler metals. College of Materials Science and Engineering T. Zhao, M. Zhao, D. Li Harbin 150040, People Rep. China

Harbin Institute of Technology, Prof. Ji-Cai Feng ([email protected]) , Brazing of TiC cermets to iron with National Lab. of Advanced Welding Technology H. J. Liu ([email protected]) Ti-Zr-Cu-Ni and Ag-Cu-Zn filler metals. Harbin 150001, People Rep. China Dr. J. Zhang ([email protected]), Brazing of TiAl alloys to steel, SiC ceramics, Prof. H-Y. Fang, Dr. Y. Zhou, and to TiB2 cermets. Z.R. Li, J. Cao, J. Yang, J. Wu, Brazing of alumina and Si3N4 ceramics with Prof. Y.Y. Qian ([email protected]), active Cu-Zn-Ti filler metals. F. Gao ([email protected]), Mechanical testing of aluminum brazed joints Ph: +86-451-864-12974 Diffusion brazing of TiAl alloy to steel using P. He ([email protected]) Ti/V/Cu composite filler metal. Ph: +86-451-864-12114, Brazing of TiC ceramic with iron alloys. Fax: +86-451-862-21048 Brazing of Ti3Al using Ni-Cr-Si-B filler L. Zhuoran ([email protected]) metals. Li-xia Zhang ([email protected]) Induction brazing of TiAl alloy to 40Cr steel Y.L. Li, Bao-you Zhang, Xian-meng Jing using Ag-Cu-Ni-Li filler metal

Tsinghua University, Prof. Xu Xiangyang Brazing of alumina ceramic. Dept. of Materials Science and Engineering Ph: +86-10-6-277-3253 Coating with cemented carbides and CoCrW Beijing 100084, People Rep. China Dept. of Mechanical Engineering Prof. Gui-sheng Zou Ph: +86-10-627-94670 cermets by infiltration with brazing filler Beijing 100084, People Rep. China ([email protected]) metal BNi-2. H.L. Ning, Z.T. Geng, J.S. Ma, F.X. Huang, Brazing of sapphire to hot-pressed Al2O3 Z.D. Han, J.G. Cui, Z. Qian, F. Huang, using Ag-Cu-Ti active filler metal. Jun Yang, Deku Zhang, Brazing if Si3N4 using TiN-modified active Ai-ping Wu ([email protected]) Ag-Cu-Ti filler metal. Ph: +86-10-6-277-3859, Diffusion brazing of Si3N4 using Ti/Ni/Ti and Genmao Liu, Jia-lie Ren, Wen-qing Zhao, Al/Ti/Al interlayers

Beijing University of Aeronautics and Astronautics, Fan Kun, Kang Hui, Ou Ping, Zhu Ying, Brazing of TiAl alloys. School of Mechanical Engineering and Automation, W.-Q. Qu, H.-S. Zhuang, Y.-H. Zhang, TLP brazing of Al/SiC composites with Beijing 100083, People Rep. China School of Materials Science and Engineering aluminum alloys. Beijing 100083, People Rep. China Q.-P. Zhong, X.-H. Li, C.-X. Cao Wide-gap brazing of superalloys Nanjing University of Aeronautics and S.-B. Xue ([email protected]) Flux (CsF-AlF3) brazing of aluminum alloys. Astronautics, W.-H. Chen, H.H. Su ([email protected]) College of Materials Science and Technology

14 Nanjing 210016, People Rep. China B. Xiao ([email protected]), Brazing of Ni-Cr alloys with diamond. College of Mechanical and Electrical Engineering H.J.Xu ([email protected]), Brazing of cBN grinding wheels using Nanjing 210016, People Rep. China Y.C. Fu ([email protected]), Ag-Cu-Ti filler metal. J.H. Xu ([email protected]) Brazing diamond-core drills W.F. Ding, J.B. Lu East China Shipbuilding Institute, R. F. Li, F.M. Zhou, M.F. Wu, K. Qi, Reactive brazing of titanium. Dept. of Materials and Environment, Z.S. Yu ([email protected]), Brazing of SiC/Al composite with Al-Cu-Si- Zhenjiang, Jiangsu 212003, People Rep. China Mg filler metal. Zou Jia-sheng ([email protected] ), Arc brazing of titanium alloys with Ti-Cu-Zr Xu Ru-qiang, Zhao Qi-zhang, C. Zheng, filler metal. Prof. Y. Zhishui Arc brazing of galvanized steel using Cu-3Si filler metal Beijing Technology and Business University C.-M. Wang Wetting and reaction of graphite with Al and College of Mechanical Engineering and Automation Ti alloys Beijing 100037, People Rep. China Beijing Polytechnic University, Y.W. Shi Dissolution of base metals in liquid brazing School of Materials Science and Engineering filler metals (modeling) Beijing 100022, People Rep. China Shanghai Jiaotong University, X.Q. Lu, Z.X. Shi, Y.X. Wu Brazing of aluminum to stainless steel Shanghai 200030, People Rep. China through Ni/Cu transitional film Xi’an Jiaotong University, Prof. G. Zhang ([email protected]) Diffusion brazing of steels with BNi-2. State Key Laboratory for Mechanical Behavior of Ph: +86-029-826-68608 Materials, Xi’an 710049, People Rep. China J. Zhang, Y. Pei, J. Niu Meng Weiru ([email protected]) Brazing of monolayer diamond tool using Cu- Ph: +86-29-826-63126 Sn-Ni-Ti filler metal Xu Kewei, Nan Junma, He Lin China Academy of Engineering Physics P. Dong ([email protected]) Laser brazing of beryllium Mianyang 621900, People Rep. China Liaoning Technical University, S.-Y. Zi, L. Bai, Z.-C. Li Flux brazing of copper and brass College of Mechanical Engineering Fuxin 123000, People Rep. China Southwest Jiaotong University Z.-G. Zhou Coating with cemented carbides and CoCrW Chengdu 610031, People Rep. China cermets by infiltration with brazing filler metal BNi-2 Shandong Institute of Light Industry, B.-R. Zhang Reaction brazing of Si3N4/MoSi2 and Dept. of Inorganic Materials Si3N4/WSi2 composites. Jinan 250100, People Rep. China Key Lab of Liquid Structure of Materials L. Yajiang ([email protected]) Jinan 250061, People Rep. China Ph: +86-531-856-4507, Brazing of WC-TiC-Co cemented carbides using Cu-Zn-Ni filler metals 15 Fax: +86-531-856-5051 using Cu-Zn-Ni filler metals Z. Zengda, F. Tao, W. Xinghong School of Mechanical Engineering Jinan 250061, People Rep. China S.S. Zhang ([email protected]), Vacuum brazing of stainless steel heat Y.H. Cheng ([email protected]), exchangers using pure Cu filler metal L. Cheng ([email protected]) Jilin University of Technology, C.G. Wang, H.P. Xiong, Z.F. Zhou Brazing of ceramics to steel using amorphous Dept. of Materials Science and Engineering Cu-Ni-Ti-B filler metal. Changchun City, 130025, People Rep. China Key Laboratory of Automobile Materials Prof. W.H. Liu ([email protected]) TLP brazing of aluminum matrix composites Changchun City, 130025, People Rep. China Ph: +86-431-570-5305 D.Q. Sun, S.S. Jia, X.M. Qui Jiangsu University, K. Chen Brazing of Si3N4 ceramics using liquid-phase School of Materials Science and Engineering ceramic filler Y2O3-Al2O3-SiO2-TiO2 Zhenjiang 212013, People Rep. China Yanshan University, Y.H. Wang, H.X. Wang, Y.Z. Zheng Brazing of Ti/Ni coated diamond College of Materials Science and Technology Qinhuangdao, People Rep. China Qingdao University of Science and Technology S.L. Yang Diffusion brazing of aluminum to stainless Qingdao 266042, People Rep. China steel Huazhong University Science and Technology, J. Wu, F.R. Zhang Vacuum brazing of stainless steel to WC-Co Mechanic Institute cemented carbides Wuhan 430074, People Rep. China Sichuan University Zhi-hong Dong, Hong-yuan Fan Brazing of titanium using Ag-8Al-6Sn, Ag- Chengdu 610065, People Rep. China 15Al-1Mn-1Si filler metals

Italy

Universita di Ancona, F. Rustichelli, M Ceretti Brazing of carbon-carbon composites to Instituto di Scienze Fisiche molybdenum for nuclear reactor applications, Ancona 60131, Italy Dept. di Scienze dei Materiali e della Terra G.Albertini study of stresses in brazed joints. Ancona 60129, Italy N. Specchia, A. Pagnotta Brazing of titanium matrix composites Politecnico di Torino, Milena Salvo, Monica Ferraris Brazing of C/SiC and C-C composites for Dept. of Material Science and Chemical ([email protected]) nuclear reactor applications. Engineering Corso Duca degli Abruzzi 24, Torino 10129, Italy Ph: +39-011-564-4687, Reaction brazing of Si3N4/MoSi2 and Fax: +39-011-564-4699 Si3N4/Wsi2 composites. Pietro Appendino, V. Casalegno, Brazing of C-C composites to copper by F. Smeacetto, P. Lemoine, direct contact melting of Cu M. Merola, F. Marino University of Padua Calliari ([email protected] ), Vacuum brazed joints for superconductors 16 Via Marzolo 9, Padova 35131, Italy E. Ramous, K. Brinelli, M. Dabala University of Bologna, A. Brillante, L. Farina Brazing of heat-resistant SiC-SiC joints using Dept. of Physical and Inorganic Chemistry molybdenum as filler metal Bologna 40136, Italy

Portugal

Universidade do Minho, Dr. M.A. Guedes, A.M.P. Pinto Brazing of titanium and TiAl alloys. Dept. de Engenharia Mecanica ([email protected]) Campus de Azurem, 4800-058 Guimaraes, Portugal L.A. Rocha, E. Ariza ([email protected]) Diffusion brazing and electrochemical Centro de Materiais Ceramicos e Compositos A.M. Costa behavior of Ti/Al2O3 joints

Universidade do Porto, M. F. Vieira, F. Viana Brazing of titanium and TiAl alloys Dept. de Engenharia Metalurgica a Materiais GMM/IMAT, Faculdade de Engenharia, Rua Dr. Roberto Frias, 4200-465 Porto, Portugal

Universidade de Coimbra, A.S. Ramos, M.T. Vieira Brazing of titanium and TiAl alloys Dept. de Engenharia Mecanica

Universidade de Aveiro, R.F. Silva ([email protected]), Diffusion brazing and electrochemical Dept. de Engenharia Ceramica e do Vidro Ph: +351-234-370243, Fax: +351-234-425300 behavior of Ti/Al2O3 joints. Aveiro 3810-193, Portugal A. Palavra, A.J.S. Fernandes, F.M. Costa Brazing of zirconia to titanium alloys for biomedical implants using active filler metals. S. Agathopoulos, S. Pina, R.N. Correia Wettability and reactive brazing of CVD diamond plates with metals

Spain

Universidad Complutense de Madrid, A. Urena, J.M.G. de Salazar, M.D. Escalera, Brazing of aluminum matrix composites using Dept. de Ciencia de los Materials e Ingenieria M.I. Fernandez Bsi-4 filler metal Metalurgica Madrid, Spain University of Vigo, C. Serra Wettability and reactive brazing of thick CVD CASTI diamond film Lagoas-Marcosende, Vigo 36200, Spain

Austria University of Vienna, Prof. C. Schuster Brazingof ceramics with Cu-Sn-Ti and 17 Institute of Physical Chemistry Cu-Zn-Ti active filler metals Vienna, Austria

Belorussia Polotskiy University Prof. F. Panteleenko Reactive brazing of carbon steels, stainless Polotsk, Belorussia steel, and high-speed W-containing steels using Fe-C-Si-B filler metal

Taiwan

National Dong Hwa University, Prof. R.K. Shiue ([email protected]) Infrared brazing of steels and TiAl alloys. Dept. of Material Science and Engineering Ph: +886-3-863-4209, Fax: +886-3-863-4200 Infrared brazing of steels and TiNi shape Hualien 974, Taiwan H.Y. Chan, D.W.Liaw memory alloys. Brazing of Ti-6Al-4V to TZM (molybdenum) using BAg-8. Infrared brazing Cu to Ti using Ag-5Al filler metal National Taiwan University of Technology, Prof. S.K. Wu ([email protected]) Infrared brazing of steels and TiAl alloys. Dept. of Material Science and Engineering Ph: +886-2-2363-7846 Infrared brazing of steels and Ti50Ni50 shape 1 Roosevelt Rd., Sec.4, Taipei 106, Taiwan Fax: +886-2-2363-4562 memory alloy S.Y. Chen, S.J. Lee, C.H. Chan, Brazing of zirconia using active filler metals Prof. T.H. Chuang, W.P. Weng Ag-Cu-Ti and Sn-Ag-Ti. Prof. S.T.Lin, S.F. Huang, H.L. Tsai, TLP brazing of Inconel 718 superalloy with Ni-P and Ni-Cr-P filler metals. Brazing of aluminum matrix composites using Sn-Ag-Ti active filler metal. Laser brazing of diamond grits using Cu-Ti-Sn filler metal. Infrared brazing Cu to Ti using Ag-5Al filler metal Chung-Hua University, Prof. M.S. Yen Brazing of zirconia using active filler metals Dept. of Mechanical Engineering Ag-Cu-Ti and Sn-Ag-Ti. Hsin-Chu 300, Taiwan Diffusion (TLP) brazing of Inconel 718 superalloy with Ni-P and Ni-Cr-P filler metals National Chiao Tung University, C.T. Kuo, C.R.Lin, H.M. Lien Brazing of diamond to stainless steel and Institute of Material Science and Engineering cemented carbides using active filler metals Hsinchu 30050, Taiwan 18 Tatung University, L.H. Chiu ([email protected]) Vacuum brazing of duplex stainless steels. Dept. of Materials Engineering Ph: +886-2-259-25252, Mechanical testing of brazed joints 40 Chungshan North Rd., 3rd Sec., Taipei 10451, Taiwan Fax: +886-2-259-36897 W.C. Hsieh, C.H. Wu National Cheng-Kung University, E. Chang, C.-H. Chen Brazing of titanium alloys using Ti-Ni, Ti-Ni- Dept. of Material Science and Engineering Cu, and Ti-Zr-Ni-Cu filler metals Tainan 701, Taiwan

Poland

Politechnika Czestochowska S. Wiewiorowska Silver-based brazing alloys Instytut Modelowania I Automatyzacji Procesow Czestochowa, Poland Politechnika Wroclawska Prof. A. Ambroziak, Dr. Mirski, A. Lange Brazing aluminum to copper using Ni Wroclaw, Poland interlayer. Brazing of chromium steel using BNi-5 for automotive catalyst device Politechnika Warszawska W. Kaminski, J. Kesik Residual stresses in SiC-Cu brazed joints Instytut Mikroelektroniki I Optoelektroniki R. Kisiel,W. Gasior Ul. Koszykowa 75, Waszawa 00-662, Poland ([email protected]) Warsaw University of Technology, W.K. Wlosinski Brazing of carbon fibers to ceramics using Institute of Material Technology Ag-Cu-Ti filler metal. 85 Narbutta st., Warsaw 02-254, Poland M.B.Nuri Mechanical properties of brazed joints of SiALON ceramic to austenitic steel Politechnika Koszalinska, Dr. Zdzislaw Wlodarski Fluxes for aluminum brazing Dept. of Mechanical Engineering Koszalin, Poland

Slovakia

Zilinska Univerzita Dr. Ivan Durmis Brazing of copper tubes Katedra Technologickeho Inzinerstva Zilina, Slovakia Slovak Technical University, Dr. P. Sejc MIG arc brazing of galvanized steel using Dept. of Materials and Technologies Cu-3Si filler metal Bratislava, Slovensko

19 Romania

Technical University of Cluj-Napoca, T. Petrisor Low-activation brazing of SiCf/SiC fiber- 3400 Cluj Napoca, Romania reinforced compposites

Korea

Inha University, S.-P. Lu, O.-Y. Kwon Brazing of WC/Ni-Cr-B-Si composite Dept. of Mechanical Engineering S.-H. Lee, D.-S. Jung, J.-W. Han, B.-D. You coatings. 253 Yonghyun-dong, Num-gu, Inchon 402-751, Korea School of Materials Science and Engineering J-S. Ryu, M-S. Kim ([email protected]) 253 Yonghyun-dong, Num-gu, Inchon 402-751, Korea Ph: +82-32-860-7541, Fax: +82-32-868-3607 Brazing of Al-Si and Al-Mn-Zn alloys Korea Advanced Institute of Science and W.H. Sohn, H.H. Bong, S.H. Hong Brazing Aluminum to Titanium by Al-Si-Mg Technology, Dept. of Materials Science ([email protected]) filler metal 373-1 Kusong-dong, Yusong-gu, Daejon 305-701, Korea Ph: +82-42-869-3327 Seoul National University, S. Kang Brazing of ceramics to metals using Au-Ni- Dept. of Inorganic Materials Engineering Cr-Fe filler metals to get heat-resistant joints Seoul 151-742, Korea Yonsei University, B. Rhee ([email protected]) , D. Kim TLP brazing of duplex stainless steel using Dept. of Metallurgical Engineering Ni-Cr-Fe-B-Si filler metal Seoul, 120-749, Korea Pusan National University. H.K.Lee, C.Y. Kang Brazing of duplex stainless steel using Ni-Cr- Dept. of Materials Engineering Si-B filler metal Pusan 609-735, Korea Sungkyunkwan University, Prof. S.-B. Jung ([email protected]), Vacuum brazing of WC-Co cemented Dept. of Advanced Materials Engineering W.-B. Lee carbides to carbon steel using Cu and 300 Cheoncheon-dong, Jangan-gu, Suwon, Kyounggi-do, 440-746, Korea amorphous Ni-B-Si interlayers Seoul Technical High School, Dr. B.-D. Kwon Vacuum brazing of WC-Co cemented Dept. of Metallurgy carbides to steel using Cu and amorphous Seoul 156-810, Korea Ni-B-Si interlayers Korea Institute of Industrial Technology S.-Y. Shin, J.-H. Kim, D.-M. Lee Amorphous brazing filler metals of the 35-3 Hongcheon-ri, Ipjang-myeon, Cheonan-si, system Cu-Ni-Zr-Ti Chungceongnam-do 330-825, Korea

India

Bengal Engineering College, Mainak Ghosh, Sukumar Kundu, Reactive diffusion brazing of titanium to Dept. of Metallurgy and Materials Engineering Subrata Chatterjee stainless steel using Ni interlayer Howrah 711103, West Bengal, India ([email protected]) 20 Jadavpur University M.B. Sana Active brazing filler metals of the Ag-Cu-Ti Dept. of Inorganic Chemistry system Calcutta 700 032, India Indian Institute of Technology, I.Chakravarty, S.P. Gupta Brazing alumina to iron, nickel, and Dept. of Materials and Metallurgical Engineering ([email protected]) chromium alloys using active filler metals Kanpur, UP 208116, India Ph: +91-1512-597-640, Fax: +91-1512-597-505 Singapore

Nanyang Technological University, J.X. Zhang ([email protected]) TLP brazing of alumina to stainless steel School of Materials Engineering or ([email protected] ), R.S. Chandel, throgh Ni-Cr foil Nanyang Ave., Singapore 639798 H.P. Seow National University of Singapore, S.K. Tung, L.C. Lim, M.O. Lai, H. Wu Solidification and post-braze treatment of Ni- Dept. of Mechanical and Production Engineering Cr-Si-B brazed joints Kent Ridge Crescent, Singapore 119260

Brazil

21 Universidade Federal de Rio Grande do Norte, R.M. do Nascimento, A.E. Martinelli Brazing of metals to ceramics Dept. of Engenharia Mecanica Campus Lagoa Nova, Natal, RN 59072-970, Brazil Universidade Federal de Santa Catarina, A.J.A. Buschinelli Brazing of metals to ceramics Dept. of Engenharia Mecanica, Laboratorio de Soldagem Campus Universitario Trindale, Florianopolis, SC 88040-900, Brazil

Turkey

Firat University, O. Yilmaz ([email protected]) Diffusion brazing of stainless steel and copper Dept. of Metallurgical and Materials Engineering H. Celik bimetal Elazig 23119, Turkey Erciyes University, M.B. Karamis ([email protected]) Brazing of copper tubes Dept. of Mechanical Engineering Ph: +90-352-437-5784, Kayseri 38039, Turkey Fax: +90-352-437-5755 A. Tasdemirci, F.Nair Eastern Mediterranean University, M. Bengisu Reactive brazing of alumina using Al Dept. of Industrial Engineering interlayer Famagusta, Northern Cyprus, Via Nersin 10, Turkey

Mexico

Universidad Michoacana San Nicolas de Hidalgo, J. Serrato-Rodrigues Diffusion (TLP) brazing of alumina ceramics Instituto de Investigaciones Metallurgicas to metal matrix composites Morelia, Mexico

Part 2. SOLDERING

University Personnel Characterization

USA

The Johns Hopkins University, J. Wang ([email protected]) Soldering of stainless steel or titanium using Dept. of Materials Science and Engineering E. Besnoin, A Duckham, S.J. Spey, M.E. Sn-Au solder and nanostructured foils of Reiss, O.M. Knio, T.P. Weihs, A.J. Swiston Al/Ni, Al/Zr, Ni/Si, and Nb/Si as exothermic22 Jr. ([email protected]) Ph: (410)516-4274, reaction heating source Maryland Hall 102, 3400 N.Charles St., Baltimore, Reiss, O.M. Knio, T.P. Weihs, A.J. Swiston Al/Ni, Al/Zr, Ni/Si, and Nb/Si as exothermic MD 21218 Jr. ([email protected]) Ph: (410)516-4274, reaction heating source Fax: (410)516-5293 Portland State University, L.L. Meekisho Solder joint reliability, modeling Portland, OR 97207

Youngstown State University, R.A. McCoy, M. Faizan Lead-free soldering with Sn-Ag-Cu and Sn- Dept. of Mechanical Engineering Cu solders Youngstown, OH 44555 The University of Akron, D.C. Lin, G.X. Wang ([email protected]) Lead-free soldering with Sn-Ag-Cu and Sn- Dept. of Mechanical Engineering Cu solders Akron, OH 44325-3903 Iowa State University, Dr. I.E. Anderson ([email protected]) Aging and fatigue of lead-free Sn-Ag-Cu Dept. of Aerospace Engineering and Mechanics Ph: (515)294-9791 solders and effect on electrical resistivity. 222 M.D. Ames Laboratory, Ames, IA 50011 Dr. B.A. Cook ([email protected] ) Deformation of Sn-Pb layered joints J.L. Harringa, A. Bastawros, A. Antoniou University of Maryland, Dr. A.Dasgupta ([email protected] ) Reliability of lead-free solders. CALCE Electronic Products @ System Center, Ph: (301)405-5251, Fax: (301)314-9269; Fretting corrosion of lead-free solder plated Mechanical Engineering Department College Park, MD 20742 P. Casey, contacts M. Pecht ([email protected]), Y. Fukuda, J. Wu ([email protected]) Ph: (301)405-5901, Fax: (301)314-9269 State University of New York at Buffalo, D.L. Chung Electrical resistance testingof soldered joint Composite Materials Research Lab. Buffalo, NY 14260-4400 Georgia Institute of Technology, Z. Zhang, C.P. Wong Lead-free soldering of bumped flip-chip. School of Materials Science and Engineering ([email protected]) Microwave soldering. 771 Ferst Dr. NW, Atlanta, GA 30332-0245 Ph: (404)894-8391, Fax: (404)894-9140 Self-fluxing ability of lead-free solders. Y.-S. Sun University of California at L.A., H. Gan, K.N. Tu ([email protected]), Gu Xu, Electromigration and intermetallic formation Dept. of Materials Science and Engineering Yuhuan Xu ([email protected]) in lead-free soldered joints. Los Angeles, CA 90095-1595 Ph: (310)825-2451, Fax: (310)206-7353, Sn whisker growth in lead-free solder finish. Mark Date ([email protected]), Optical fiber packaging by lead-free solder W.J. Choi ([email protected]) , T.Y. Lee, and Ti/Cu/Au coating K.N. Tu, Shengquan Ou California Institute of Technology, J.K. Bonner ([email protected]) Lead-free solders for printed wiring Jet Propulsion Laboratory Ph: (818)354-1320, Fax: (818)393-5456 assembles. 4800 Oak Grove Dr., Pasadena, CA 91109-8099 L. Del Castillo, A. Mehta 23 Dr. Andrew Shapiro ([email protected]) Environmental impact of lead-free solders Ph: (818)393-7311, Fax: (818)393-5055 University of California, D. Kim, C.C. Lee ([email protected]) Flux-free soldering in air using Sn-Bi-Au Dept. of Materials Science and Engineering solder. Irvine, CA 92697-7070 Dept. of Environmental Analysis and Design Prof. Oladele Ogunseitan, Prof. J.D.Saphores, Toxicity and extraction impact of lead-free solders University of California, Prof. J.M. Schoenung Environmental impact of lead-free solders Dept. of Chemical Engineering and Materials ([email protected]) Science Davis, CA 95616-5294 Ph: (530)752-5840, Fax: (530)752-9554 State University of New York, R.K. Kinyanjui, A. Zribi, E.J. Cotts Interface of Au-Pb-Sn solder with Ni Dept. of Physics and Institute of Materials Research ([email protected]) substrate. Binghampton, NY 13902-6016 L.P. Lehman ([email protected]) Thermal fatigue of Sn-Ag-Cu solder joints Michigan State University, T.R. Bieler, J.P. Lucas, F. Guo, S. Choi, K.N. Creep behavior and reliability of Sn-Ag- and Dept. of Materials Science and Mechanics Subramanian ([email protected] ), Sn-Ag-Cu-Ni based solders for electronic 2527 Engineering Building, East Lansing, MI 48824-1226 A.U. Telang applications. University of Michigan-Dearborn, Yong Wei ([email protected]) Fatigue, thermo-mechanical behavior and Department of Mechanical Engineering Ph: (313)593-4976 failure of soldered joints Dearborn, MI 48128 C.L. Chow University of Michigan at Ann Arbor, Brian H. Stark ([email protected]) Mold and transfer technique for lead-free Center of Wireless Integrated Microsystems Ph:(734)936-3832, Fax: (734)647-1781 flux-free soldering in thin-film packaging 111 Engineering Programs Building, 2609 Draper Ave., Ann Arbor, MI 48109-2102 Northeastern University, T. Ando, H. Fukuda, C. Tuffile Spray deposition of Sn-Pb solders Dept. of Mechanical and Manufactural Engineering Boston, MA 02115 Cornell University, T.M. Korhonen ([email protected]), Thermomechanical fatigue of Sn-Ag-Cu Dept. of Materials Science and Engineering M.A. Korhonen solder joints Ithaca, NY 14853 University of Texas at Austin Ted Carper, Steven Dunford, C.-U. Kim, J.-Y. Lead-free solders of the Sn-3.8Ag-0.7Cu- Austin, TX Park, R. R. Kabade, V. Puligandla (0.5-5)Au system Rensselaer Polytechnic Institute, W. Yang, R.W.Messler Jr., L.E. Felton Laser beam soldering with Sn-Ag solder Dept. of Materials Engineering Troy, NY

24 Colorado School of Mines, Prof. Stephen Liu, Intermetallic formation and interface reaction Center for Welding, Joining and Coating J.C. Madeni - Ph: (303)273-3090 during lead-free soldering using Sn-based Dept. of Metallurgical & Materials Engineering 1500 Illinois Street, Golden, CO 80401 solders Arizona State University, M. Kerr, N. Chawla ([email protected]) Creep behavior of Sn-Ag solder at small Dept. of Chemical and Materials Engineering Ph: (480)965-2402, Fax: (480)965-0037 length scale Tempe, AZ 85287-6006

Japan

Osaka University, K.F. Kobayashi, A. Hirose, T. Hojo, Y. Sogo, Lead-free soldering with Sn-Ag-Bi-In and Sn- Dept. of Manufacturing Science, K. Miwa, H. Iwanishi, T. Yamada Zn-Bi solders. Graduate School of Engineering Suita, Osaka 565-0871, Japan ([email protected] ), Flux-free soldering. H. Akamizu, K. Uenishi, K. Yasuda Chip Size Packaging. ([email protected] ), Low-melting solders for electronic pakaging. K. Fujimoto ([email protected] ), Dept. of Materials Science and Processing J.-M. Kim ([email protected]), 2-1Yamada-oka, Suita, Osaka 565, Japan T. Hiramori Wetting of Ga-In, Ga-Bi, Ga-Sn based T. Tanaka, M. Matsuda, K. Nakao, Y. solders. Katayama, D Kaneko, S. Hara Soldering of Ti+ Cu-metallized AlN by Sn-Pb Institute of Scientific and Industrial Research Y. Nakao, K. Nishimoto,K. Saida, T. solders. Mihogaoka 8-1, Ibaraki, 567-0047, Japan Fujimoto, K. Murabe, Y. Fukaya, Mechanical properties of Sn-Cu-Au lead-free S.-H. Huh ([email protected]) solders used in electronic pakaging. K.-S. Kim ([email protected]) Sn-Ag-Cu lead-free solders. K. Suganuma Interfacial stability with Fe-42Ni ([email protected]), Ph: +81-6-6879-8521, Fax: +81-6-6879-8522, T. Sakai, C.-W. Hwang Dept. of Adaptive Machine Systems ([email protected]) Suita, Osaka 565-0871, Japan M. Haga Fukui National College of Technology, T. Nakanishi Lead-free soldering Dept. of Mechanical Engineering Fukui 916-8507, Japan

Hokkaido University, S. Ohkawa, K. Ishii, S. Kondo Flux soldering of titanium dental alloys School Dentistry, Dept. of Dental Materials Kita 13 Nishi 8, Kita-ku, Sapporo, Hokkaido 060-8628, Japan 25 Japan

Hiroshima University, Dr. Xin Ma ([email protected]) Lead-free solders and Sn-Pb-0.5La solder Venture Business Lab. & Dept. of Mechanical Ph: +81-824-24-7540, Fax: +81-824-24-7881 System Engineering 2-313 Kagamiyama, Higashi-Hiroshima, 739-8527, F. Yoshida Japan National Defense Academy, H. Esaka, K. Shinozuka, M. Tamura Lead-free soldering, phase composition of Dept. of Materials Science and Engineering Sn-Ag solder joints 1-10-20 Hashirimizu Yokosuka, Kanagawa, 239-8686, Japan Nagaoka University of Technology Y. Mutoh, Y. Miyashita Fatigue behavior of Sn-Ag-Cu and Nagaoka 940-2188, Japan Sn-Ag-Cu-Bi soldered joint The University of Tokyo, T. Suga ([email protected]), K. Saito Bumping with lead-free solders Center for Advanced Science and Technology Tokyo, 153-8904, Japan Konan University, H. Nawafune, K. Akamatsu Electrodeposition of Sn-Ag-Cu and Sn-Zn Faculty of Science and Engineering, lead-free solders High Tech. Research Center 8-9-1 Okamoto, Higashinada-ku, Kobe-shi, Hyogo 658-8501, Japan Graduate School of Science K. Shiba, T. Nakatani See address above National College of Technology, Dr. T. Kobayashi, Dr. N. Wada Electrodeposition of Sn-Zn films Dept. of Materials Science and Engineering Shiroko-cho, Suzuka, Mie 510-0294, Japan Kyushu Institute of Technology, H. Ohtani, M. Hasebe, K. Doi Thermodynamic of phase equilibria in the Dept. of Materials Science and Engineering Sn-Ag-Cu-Bi system Kitakyushu 804-8550, Japan Tokyo Metropolitan University, T. Sugizaki, H. Nakao, T. Watanabe Lead-free Sn-Ag-Cu and Sn-Zn-Bi solder Dept. of Applied Chemistry, Graduate School of ([email protected]) interaction with electroless Ni/immersion Engineering 1-1 Minami-Osawa Hachiohji, Tokyo 192-0397, Japan gold UBM plating in electronic packaging Gunma University, I. Shohji ([email protected]) Tensile properties of Sn-ag lead-free solders. Faculty of Engineering, Dept. of Mechanical System Ph/Fax: +81-277-30-1544 Solder joint reliability evaluation of chip scale Engineering 1-5-1 Tenjin-cho, Kiryu 376-8515, Japan T. Yoshida package Akita University, T. Takahashi, S. Hioki Tensile properties of Sn-ag lead-free solders Faculty of System Science and Technology 84-4 Tsushiya-Ebinokuchi, Honjo, Akita 015-0055, Japan Ehime University H. Toyota, T. Ide, H. Yagi Wetting of graphite and C/C composites by Dept. of Mechanical Engineering molten Sn and Pb 26 3 Bunkyo-cho, Matsuyama, Ehime 790-8577, Japan Tokyo Institute of Technology, T. Yamada, K.Miura, Diffusion and formationof intermetallics in Graduate School, Sn/Au/Sn at soldering Dept. of Materials Science and Engineering Yokohama 226-8502, Japan M. Kajihara ([email protected]) Kansai University, Junishi Takahashi, Sumio Nakahara Laser soldering with Sn-Ag-Cu and Sn-Zn-Bi Dept. of Mechanical Engineering ([email protected]) lead-free solder pastes 3-3-35 Yamatecho, Suita, Osaka 564-8680, Japan S. Hisada, T. Fujita

United Kingdom

University of Salford, N.N. Ekere, B. Salam Lead-free ball grid array packaging School of Aeronautical, Mechanical and Manufacturing Engineering, Salford, Manchester, UK University of Greenwich, G.J. Jackson ([email protected]) Control for intermetallic formation within Medway School of Engineering, B. Salam, N.N. Ekere lead-free solder bumps at Flip-Chip Electronic Manufacturing Research Group Chatham Maritime, Kent ME4 4TB, UK packaging. School of Computing and Mathematical Sciences H. Lu ([email protected]) Soldering of Cucolumn to Al pads on silicon 30 Park Row,London, SE10 9LS, UK C. Bailey ([email protected]) dies for Flip-Chip assembly

Loughborough University, C.Q. Liu ([email protected]) Intermetallic aging in Flip-Chip solder bumps Wolfson School of Mechanical and Manufacturing D. Li, P. Conway Engineering Loughborough, LE11 3TU, UK Kings College, S. H. Mannan Soldering of niobium and tungsten alloy films Strand, London WC2R 2LS using In-Sn solders for flip-chip and BGA electronic devices

Canada

University of Alberta, A. He, B. Djurfors, D.G. Ivey Au-Sn plating for soldering optoelectronics Dept. of Chemical and Materials Engineering Edmonton, Alberta, Canada T6G 2G6 University of Waterloo, Y. Zhou Flux-free plasma soldering of UBM layer on Dept. of Mechanical Engineering silicon wafer 200 University Avenue W., Waterloo, Ontario, Canada N2L 3G1

Russia 27 Voronezh State Technical University, V.V. Zenin ([email protected] ), U.E. Segal, Soldering of silver-coated electronic joints. Center Electronics V.N. Belyaev, A.T. Kosilov, G.L. Polner, I.U. Soldering of gold films with Sn-In solders in Moscow Prospekt 14, Voronezh 394026, Russia Smirnov microelectronics

Ukraine

Germany

Aachen University of Technology, Prof. Eric Lugscheider Active solder Sn-Ag-Ti-Ga deposition by Materials Science Institute ([email protected]) magnetron sputtering (PVD process) Augustinerbach 4-22, Aachen, D-52062, Germany Ph: +49-241-166020 Fax: +49-241-1660217 K. Bobzin, A. Erdle ([email protected]) Ph: +49-241-809-5347 Fax: +49-241-809- 2264

28 Chemnitz University of Technology, Prof. Bernhard Wielage The University has M.S., and graduation Institute of Composite Materials ([email protected]) academic programs in soldering and brazing Chemnitz, D-09107, Germany Ph.:+49-371-531-6169 technology. Fax: +49-371-531-6179 Development of lead-free filler materials Silke Muecklich Fluxless soldering and brazing of magnesium ([email protected]), alloys and mixed joints with Zn-Mg-Al filler Ph: +49-371-531-5384 materials Fax: +49-371-531-6179 Furnace brazing of aluminum alloys with Al- Zn filler metals Ina Hoyer Ph: +49-371-531-5232 Fax: +49-371-531-6179 ([email protected])

Thomas Grund Ph: +49-371-531-5356 Fax: +49-371-531-6179 ([email protected]) Dresden University of Technology, S. Wiese ([email protected]) Microstructure and properties of eutectic Sn- Dept. of Electrical Engineering, Packaging Ph: +49-351-463-33172, Ag and Sn-Ag-Cu lead-free solders Research Group TU Dresden, IET, Dresden 01062, Germany Fax: +49-351-463-37172 E. Meusel, K.J. Wolter Technische Universitat Berlin, Wolfgang H. Mueller (w Microstructure of soldered joints after aging Institut fur Mechanik [email protected]) and over service time Einsteinufer 5, Berlin 10587, Germany Ph: +49-30-314-27682 Fax: +49-30-314-24499

Austria Technische Universitat Wien, C. Eisenmender-Sittner Wetting and spreading of Sn on aluminum Institut fur Festkoerperphysik E-138, ([email protected]) interface. Solid state diffusion of Sn in Wiedner Hauptstrasse 8-10, Wien 1040, Austria Ph: +43-1-58-801-13774 polycristalline aluminum Fax: +43-1-58-801-13889 H. Bangert, A. Bergauer, J. Brenner Institute of General Physics E-143, C. Tomastic Wiedner Hauptstrasse 8-10, Wien 1040, Austria

29 Italy

Politechnico di Milano, P.L. Cavallotti ([email protected]) Soldering with lead-free Sn-Ag-Cu solder on Dept. Chimica, Materiali e Ingegneria Chimica Ph: +39-022-399-3149, autocatalitic Co-P metallization Via mancinelli 7, Milano 20131, Italy Fax: +39-022-399-3180 L. Magagnin, V. Sirtori

Finland

Helsinki University of Technology T.T. Mattila, V. Vuorinen, J.K. Kivilahti, Impact of PCB coating on reliability of lead- Laboratory of Electronic Production Technology T. Laurila free Sn-Ag-Cu chip-scale joints. P.O. Box 3000, Espoo 02150, Finland Interfacial reactions between Sn-Cu solder and Ni/Au metallization

China

City University of Hong Kong, Robery K. Y. Li, N.H. Yeung, Mechanical testing and reliability of Sn-Pb Dept. of Physics and Materials Science C.M.L. Wu ([email protected]) solder joints in electronics. 83 Tat Chee Ave., Hong Kong SAR, People Rep. of China C.M.T. Law Sn-Ag lead-free solders doped with rare- earths Hong Kong University of Science and Technology, Eric C.C. Yan, S.W. Ricky Lee Lead-free soldering of Ni-plated plastic ball Dept. of Mechanical Engineering, Electronic grid array (PBGA) packages Packaging Lab., Kowloon, Hong Kong Dalian University of Technology, J. Zhao Fatigue behavior of Sn-Ag-Cu and Dept. of Materials Engineering D.Q. Yu, L. Wang Sn-Ag-Cu-Bi lead-free soldered joint. Sn-Ag Dalian 116023, People Rep. of China solders doped with rare-earth elements Sichuan University, D.-T. Gong, X.-B. Liu, G.-Y. Wang Lead-free soldering with Sn-Ag-Bi solders Dept. of Metal Materials Engineering Chengdu 610065, People Rep. of China

Tsinghua University, Guisheng Zou ([email protected]) Strength of Sn-40Pb soldered joints of Al2O3 Dept. of Mechanical Engineering Ph: +86-106-279-4670, ceramic plated with electroless Ni-P Beijing 100084, People Rep. China Aiping Wu ([email protected]) Ph: +86-10-6-277-3859, Deku Zhang, Fanming Meng, Hailin Bai, Yongqing Zhang

30 Korea

Hanyang University, Young-Ho Kim ([email protected]) Lead-free soldering with Sn-Ag-Cu and Sn- Dept. of Materials Engineering Tae Hyun Kim Cu solders Seoul, 133-791, Korea Sungkyunkwan University, J-W. Yoon, S-B. Yung ([email protected]) Lead-free soldering with Sn-Ag-Cu and Dept. of Advanced Materials Engineering Ph: +82-31-290-7359, Sn-Cu-Ni solders. Intermetallic layer growth 300 Cheoncheon-dong, Jangan-gu, Suwon 440-746, Korea Fax: +82-31-290-7371 School of Metallurgy & Materials Engineering Y.-Ho.Lee, H.B. Kang, S.J. Suh, C.W.Yang, Partially-melted lead-free solders Suwon, Kyunggi-do, 440-746, Korea J.-Y. Park Seoul National University, S.-M. Hong, C.-S. Kang, J.-S. Ha, J.S. Lee, Flux-free and lead-free soldering of Sn-ag School of Material Science and Engineering J.P. Jung ([email protected]) bump flip chip Seoul 151-742, Korea KAIST- Korea Advanced Institute of Science and W.-S. Kwon, K.-W. Paik, D.K. Joo, Under bump Ni-P metallization for lead-free Technology, Jin Yu ([email protected]) soldering. Interface reactions and Dept. of Materials Science and Engineering 373-1 Kusong-dong, Yusong-gu, Daejeon 305-701, Y.C. Sohn ([email protected]) intermetallics formation. Korea Y.-D. Jeon ([email protected]) Creep of Sn-Ag-Cu solders. Ph: +82-42-869-3375 Thermodynamics of lead-free solders. Prof. H. Mo Lee,S.W. Jeong, J.H. Kim, Lead-free soldering in electronic packaging. Changwon National University, C.G. Lee Lead-free soldering with Sn-Ag-Cu and Sn- Dept. of Materials Science and Engineering Cu solders Changwon 541-773, Korea University of Seoul, K.-H. Oh, W.-H. Bang Lead-free soldering with Sn-Bi coated Sn-Ag Dept. of Materials Science and Engineering J.K. Moon, K.I. Kang, J.S. Lee solders. Seoul 130-743, Korea J.P. Jung ([email protected]) Flux-free plasma soldering of UBM layer on silicon wafer Far East University, E.G. Kang Diffusion soldering using In-Ag films Dept. of Electronic Engineering Gamgok-Myun, Korea Korea University, M.Y. Sung ([email protected]) Diffusion soldering using In-Ag films Dept. of Electrical Engineering J.Y. Kim, S.W. Park, L.Y.Yoon, H.Y.Kim Anam-dong, Sungbuk-ku, Seoul,Korea Hanbat National University, T.Y. Lee Spalling of intermetallics during reaction of Dept. of Materials Science and Engineering lead-free solders with Ni-P metallization San 16-1, Duk-Myoung-Dong, Yuseong-Gu, Deajeon 305-764, Korea Yeojoo Institute of Technology, Kyung-Seob Kim ([email protected]) Aging of solder bump joints for optical Dept. of Electronic Engineering Ph: +82-31-880-5204, Fax: +82-31-886-0357 modules Yeojoo 469-705, Korea

31 Taiwan

National Taiwan University, S.Y. Chang, L.C. Tsao, M.J. Chiang, Active soldering of ITO using Sn-Ag-Ti(Ce, Institute of Material Science and Engineering T.H. Chuang, H.M. Wu, C.N. Tung Ga) solders. Taipei 106, Taiwan, ROC ([email protected]), T.-C.Chang Dip soldering with Sn-Zn-Ag solders ([email protected]) Ph: +886-6-258-5663 M.D. Cheng, National Cheng Kung University, T.C. Chang, Ph: +886-6-238-0208 Lead-free soldering with Sn-Zn-Ag and Sn- Dept. of Materials Science and Engineering ([email protected]), Zn-Ag-Al/Ga solders. 1 Ta-Hsueh Rd., Tainan 70101, Taiwan M.H. Hon, K.-I. Chen, Kwang.-Lung Lin Mechanical properties and solid reactions in ([email protected]) , soldered joints. Yeh-Hsiu Liu, Chiang-Ming Chuang, Failure and reliability of Pb-5Sn solder Chia-Wei Huang bumps. ([email protected]) Interfacial reaction of Sn-Zn solders on Cu and Ni-P/Au substrates National KaohsiungUniversity of Applied Sciences, M.C. Wang ([email protected]) Lead-free soldering with Sn-Zn-Al solders. Dept. of Materials Science and Engineering Ph:+886-3-738-1710, Fax: +886-3-732-4047 Phase transformation in solder joints 415 Chien-Kung Rd., Kaohsiung 80782, Taiwan National Tsing Hua University, Jih-Hung Yeh, Jenq-Gong Duh Soldering of electroless Ni film on alumina Dept. of Materials Science ([email protected]) ceramic Hsinchu, Taiwan Ph: +886-3-571-2686, Fax: +886-3-571-2686

National Dong Hwa University, R.-K. Shiue ([email protected]), Sn-Bi-Ag-In lead-free solders Dept. of Materials Science and Engineering C.-L. Lin, J.-L. Ou Hualien 974, Taiwan, R.O.C. National Taiwan Ocean University, L.-W. Tsay Sn-Bi-Ag-In lead-free solders Dept. of Materials Science and Engineering Keelung 202, Taiwan, R.O.C. Tung-Fang Institute of Technology, K.-I. Chen Lead-free soldering with Sn-Zn-Ag and Sn- Dept. of Electronics and Information Zn-Ag-Al solders doped with Ga. Kaohsiung County, 829, Taiwan National United University, M.C. Wang ([email protected]) Intermetallics formation in Sn-Zn-Al lead- Dept. of Materials Science and Engineering Ph:+886-3-738-1710, Fax: +886-3-732-4047 free solder on Cu substrate 1 Lien-Da, Kung-Ching Li, Miao Li 360, Taiwan Tung Nan Institute of Technology, Jyh-Wei Lee, J.-H. Jeh Interfacial reaction between Sn-37Pb solder Dept. of Mechanical Engineering and electroless Ni/Cu/Al2O3 substrate Taipei, Taiwan

32 National Chiao Tung University, Chih Chen ([email protected]) Electromigration in eutectic Sn-Pb solder Dept. of Material Science and Engineering C.M. Lu, T.L. Shao, C.J. Yang bump Hsin-chu 30050, Taiwan

Thailand

Thammasat University, C. Kanchanomai Lead-free soldering with Sn-Ag-Cu-Bi Dept. of Mechanical Engineering solders Pathumthani 12121, Thailand

Singapore

Institute of Microelectronics G. Viswanadam, C.C. Wong Soldering in electronic packaging Nanyang Technological University, G.Y. Li ([email protected]), Intermetallic growth kinetics in lead-free School of Materials Engineering B.L. Chen ([email protected]) Sn-Ag-Cu and Sn-Ag solder joints. Nanyang Ave., Singapore 639798 School of Mechanical and Production Engineering Ph: +65—6-790-6161, Fax: +65-6-790-0920, Cr/Cu/Ni underbump metallization for lead- Nanyang Ave., Singapore 639815 Zhong Chen ([email protected]) free soldering. Ph: +65—6-790-4256, Fax: +65-6-790-9081, Effect of Sb on intermetallic growth in Min He, Wee Hua Lau, P.T. Yeo, A. Kumar, Sn-Ag-Cu lead-free soldering. Z.W. Zhong, K.W. Ong, T.H. Low, Ni metallization by liquid state reaction . John H.L. Pang ([email protected]) Cu plating in bump-free Flip Chip packaging

National University of Singapore, W.H. Yu, E.T. Kang ([email protected]) Electroless Sn-free platingof Si substrate for Dept. of Chemical Engineering Ph: +65-6874-2189, Fax: +65-6779-1936 soldering. Kent Ridge, Singapore 119260 Dept. of Mechanical and Production Engineering K.G. Neoh Gold plating for lead-free soldering 2 Engineering Dr., Singapore 119260 or Y. Zhang, S.S. Ang, 9 Engineering Dr., Singapore 117576 A.A.O. Tay ([email protected]) W.S. Chai, M. Gupta, J.F. Caers

Sweden

Chalmers University of Technology, A. Thoelen, Li Xiao, J. Liu, Z. Lai Mechanical properties of bulk lead-free Dept. of Production Engineering solders SE-412 96 Goeteborg, Sweden

Denmark

Technical University of Denmark, Kristian Moelhave ([email protected]) Soldering of nanostructures by electron beam deposition 33 Microelectronic Center, Dorte N. Madsen, Soeren Dohn, deposition Lyngby 2800, Denmark Peter Boeggild

Poland

Warsaw University of Technology, R. Kisiel,W. Gasior Electrical and mechanicalproperties of Institute of Microelectronics & Optoelectronics ([email protected]) Sn-Ag-Cu lead-free solders Koszykowa Street 75, Waszawa 00-662, Poland

Czech Republic

Brno University of Technology, V. Ustohal, J. Dupak ([email protected]) Soldering of titanium using In-Pb solders Faculty of Mechanical Engineering Fax: +420-5-415-14402 Technicka 2, Brno 61669, Czech Republic

Brazil

State University of Campinas, O.L. Rocha, C.A. Siqueira, A. Garcia Diffusion and solidification of Sn-Pb solders Dept. of Materials Engineering ([email protected]) UNICAMP, P.O.Box 6122, Campinas, 13083-970, Brazil

India

Indian Institute of Technology at Bombai, A. Dobriyal, P. Ramakrishanan Lead-free Sn-Ag-Bi solders made by Dept. of Metallurgical Engineering and Material mechanical alloying technique Science Powai, Mumbai, 400076,India

34 35