Engineering & Technology

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Engineering & Technology Engineering & Technology Engineering A Acoustical engineering Agricultural engineering Aquacultural engineering Aquatic and environmental engineering Architectural engineering Army engineering maintenance Atomic engineering Aviation engineering B Biological interface engineering Biomechanical engineering Bioresource engineering Broadcast engineering Building services engineering C Ceramic engineering Chemical engineering Civil engineering Civionics Climate engineering Cloud engineering Collaborative engineering Computer engineering Computer-aided engineering Computer-aided production engineering Construction engineering Control engineering Cost engineering D Detailed engineering E Earthquake engineering Ecological engineering Electrical engineering Electronic engineering Energy engineering Engineering informatics Engineering management Engineering psychology Engineering science and mechanics Environmental engineering Environmental engineering science Exploratory engineering F Facilities engineering Food engineering Forensic electrical engineering Forensic engineering Forensic materials engineering Forensic software engineering Frugal innovation G Genetic engineering Geomatics engineering Glossary of aerospace engineering Glossary of engineering H Health systems engineering Healthcare engineering I Industrial and production engineering Industrial chemistry Industrial engineering Information engineering K Kansei engineering L List of engineering branches Logistics engineering M Maintenance engineering Marine engineering Marketing engineering Massive online open research Mechanical engineering Methods engineering Military engineering Mining engineering Molecular engineering Multidisciplinary design optimization Municipal or urban engineering N Nanoengineering Naval architecture Nuclear engineering O Operations research Optical engineering P Packaging engineering Paper engineering Petroleum engineering Planetary engineering Plastics engineering Polymer engineering Power plant engineering Precision mechanics Predictive engineering analytics Process engineering Product engineering Project commissioning Project engineering Q Quality engineering R Railway engineering Rehabilitation engineering Reliability engineering Reservoir engineering S Safety engineering Sanitary engineering Software engineering Specialty engineering Sports engineering Structural engineering Surface engineering Surface modification Sustainable engineering Systems engineering T Telecommunications engineering Transportation engineering V Vacuum engineering W Wind engineering Wireless engineering Technology A Agricultural technology Assistive technology B Balancing technology Banking technology Biotechnology Building technology C Cleaning methods Cleanroom technology Cybernetics D Domestic implements Drilling technology E Educational technology Electronics Emerging technologies Energy technology Environmental technology Equipment Explosives F Film and video technology Financial technology Fluid technology Food technology G Gas turbine technology Geographical technology H Home automation Industry Information and communications technology Inventions M Machinery Medical technology Microtechnology Military technology Mining techniques Missile technology Music technology N Nanotechnology P Political campaign technology Primitive technology R Rail technologies S Scientific equipment Sound technology Space technology Sports technology T Tools Transport Travel technology V Vehicle technology W Waste treatment technology .
Recommended publications
  • The New York State College of Ceramics
    ALFRED UNIVERSITY PUBLICATION The New York State College of Ceramics Catalogue Number for 1939-40 Announcemel1ts for 1940-41 Vol. XV November, 1939 No.9 Published ten limes a year by AlitOed University: Monthly in January, April, l,me, October} NovemberJ December, and semi-monthly in February and March. Entered as second class matter at Alfred, N. Y., Janl/ary 25, 1902, Imder Act of Congress July 16, 1894. Acceptance for mailing at special rate of postage provided tor in Section 1103, Act of Octobet' 3, 1917/ authorized 011 Jflly 3, 1918. fALFRED UNIVERSITY PUBLICATION Vol. xv Novembct, 1939 No.9 TIle Nevv York: State College of Ceralnics Catalogue N umber for 1939-40 Announcements for 1940·-41 AI,FRED, NEW YORK TABLE OF CONTENTS L Calendar ........................................ ...... , .......... 5,6 2, Personnel of the Administration and Faculty. .. ..................... 7 3. History, Objectives and Policies....... .. .. ,......................... 9 4. General Information ............ ,....... ........ ,.... .... , .. :.... 14 5. Adluission ........................... ,.. ..... :.............. 24 6. Expenses .................... .. .......... .. 28 7. Scholastic Requirements .......... .................................. 31 8. Departments of Instruction ................... .. 33 Ceramic Engineering ........... .............. .................... 33 GJass TechnoJogy ................ , ........... .. 35 Industrial CCHunic Design ....................... .................. 36 I~esearch .. .. ................ 38 9. Description of Courses
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  • Oral Abstracts
    1734-A-1902 Model systems for heterogeneous catalysts at the atomic level Hans-Joachim Freund1 1 Fritz-Haber-Institut der Max-Planck-Gesellschaft Our understanding of catalysis, and in particular heterogeneous catalysis, is to a large extent based on the investigation of model systems. Increasing the complexity of the models towards oxide supported nanoparticles, resembling a real disperse metal catalyst, allows one to catch in the model some of the important aspects that cannot be covered by metal or oxide single crystals per se. The main purpose of our studies is to provide conceptual insight into questions concerned with a variety of topics in catalysis, including support nanoparticle interaction, reactivity at the particle-support interface, strong metal support interaction, reactions in confined space and development of new instrumentation for surface science studies. The talk will address some of those issues. 1 1773-A-1902 Special metallic gasket sealing for the non-circular profile flanges Gao-Yu Hsiung1 1 NSRRC, Hsinchu, Taiwan Various types of the metallic gaskets for the non-circular profile flanges and the potential applications will be introduced. The sealing surface of flange is flat to accommodate the special metallic gasket with knife edges for the sealing. Both the flange and gasket are made of aluminum alloys and produced by the oil-free Ethanol-CNC-machining process that any non-circular profile, e. g. race-track, rectangular, key-hole, etc., flanges can be made. All the flanges and gaskets after oil-free machining can be assembled immediately without any chemical cleaning. The quality of ultrahigh vacuum at pressure < 20 nPa after vacuum baking has been approved.
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  • Ceramic Engineering Building
    CERAMIC ENGINEERING BUILDING UNIVERSITY OF ILLINOIS URBANA CHAMPAIGN, ILLINOIS Description of the Building and Program of Dedication, December 6 unci 7, 1916 THE TRUSTEES THE PRESIDENT AND THE FACULTY OF THIS UNIVERSITY OF ILLINOIS CORDIALLY INVITE YOU TO ATTEND THE DEDICATION OF THE CERAMIC ENGINEERING BUDUDING ON WEDNESDAY AND THURSDAY DECEMBER SIXTH AND SEVENTH NINETEEN HUNDRED SIXTEEN URBANA. ILLINOIS CERAMIC ENGINEERING BUILDING UNIVERSITY OF ILLINOIS URBANA - - CHAMPAIGN ILLINOIS DESCRIPTION OF BUILDING AND PROGRAM OF DEDICATION DECEMBER 6 AND 7, 1916 PROGRAM FOR THE DEDICATION OP THE CERAMIC ENGINEERING BUILDING OF THE UNIVERSITY OF ILLINOIS December 6 and 7> 1916 WEDNESDAY, DECEMBER 6 1.30 p. M. In the office of the Department of Ceramic Engineering, Room 203 Ceramic Engineering Building Meeting of the Advisory Board of the Department of Ceramic Engineering: F. W. BUTTERWORTH, Chairman, Danville A. W. GATES Monmouth W. D. GATES Chicago J. W. STIPES Champaign EBEN RODGERS Alton 2.30-4.30 p, M. At the Ceramic Engineering Building Opportunity will be given to all friends of the University to inspect the new building and its laboratories. INTRODUCTORY SESSION 8 P.M. At the University Auditorium DR. EDMUND J. JAMBS, President of the University, presiding. Brief Organ Recital: Guilnant, Grand Chorus in D Lemare, Andantino in D-Flat Faulkes, Nocturne in A-Flat Erb, Triumphal March in D-Flat J. LAWRENCE ERB, Director of the Uni­ versity School of Music and University Organist. PROGRAM —CONTINUED Address: The Ceramic Resources of America. DR. S. W. STRATTON, Director of the Na­ tional Bureau of Standards, Washington, D. C. I Address: Science as an Agency in the Develop­ ment of the Portland Cement Industries, MR.
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  • UMR MSE News
    September 2005 Vol. 1, No. 1 UMR MSE News A Newsletter for the Alumni of the Metallurgical, Ceramic, and Materials Engineering programs of the Missouri School of Mines/University of Missouri-Rolla Chairman’s Letter here beyond what it has been in many years, and that is Greetings from Rolla! You are now holding the first beginning to garner some widespread attention. For edition of our MSE Newsletter a new venture from the example, a 2004 survey of MSE departments by the faculty, students, and staff of the Metallurgical University Materials Council indicates that the UMR Engineering and Ceramic Engineering programs at the MSE undergrad program is one of the five largest in the University of Missouri-Rolla. Since July 2004, these US. The 2004 US News & World Report listed our pro- st two venerable programs have formed the core of gram as the 41 ranked graduate MSE program in the UMR’s new Materials Science and Engineering US the first time that UMR has been included in these Department. This newsletter will review some of the rankings. highlights of our first year and give you an idea about some plans for the future. We had several changes in departmental personnel this year. Associate Prof. Chris Ramsay, a fixture in the It is worth noting at the outset that the formation of the metallurgical engineering program since 1989, took a MSE department does not signal the end of independ- leave of absence last May to develop his consulting ent ceramic engineering and metallurgical engineering business. Priscilla Winner, the Metallurgy and MSE programs.
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  • Report of Engineer's Committee on Three Mile Island
    $e 0 C' 0 UNITED STATES NUCLEAR REGULATORY COMMISSION I ANNOUNCEMENT NO. 37 DATE: April 14, 1980 TO: Office Directors SUBJECT: REPORT OF ENGINEER'S COMMITTEE ON THREE MILE ISLAND The American Society of Mechanical Engineers has made available the attached report: " A REVIEW OF THE "REPORT OF THE PRESIDENT'S COMMISSION ON THE ACCIDENT AT THREE MILE ISLAND". Copies of the report are available for NRC staff from the Publications Services Unit, 016 Phillips Building. William J Besaw, Director Division of Technical Information and Document Control, ADM Attachment: As stated NRC Formq (1/76) A REVIEW OF THE "REPORT OF THE PRESIDENT'S COMMISSION ON THE ACCIDENT AT THREE MILE ISLAND" by the Engineers Committee On Three Mile Island March, 1980 Members and Alternates ENGINEERS COMMITTEE ON THREE MILE ISLAND* Peter A. Morris, Ph.D. American Nuclear Society Dwight Bellinger, P.E. - Chairman, William Ramsay, P.E. American Society for Quality Control American Society of Heating, Refrigerating and Air- S. Neal Broome, P.E. Conditioning Engineers Society of.Fire Protection Engineers John Reiter Spencer Bush, P.E., Ph.D. Society of Naval Architects American Society for Metals and Marine. Engineers Robert Cunitz, Ph.D. A.R. Robinson, P.E. System Safety Society American Society of Agricultural Engineers Brian Dunfield American Association of Coft Gavriel Salvendy, Ph.D. Engineers American Institute of Industrial Engineers Angelo Giambusso American Nuclear Society Otto A. Tennant, P.E. Vice Chairman J. Read Holland, Ph.D. National Society of Professional The Metallurgical Society of AIME Engineers Philip W. Hufnell, P.E. Harold Walton, Ph.D.
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  • About the Authors
    1845 About the Authors Chong H. Ahn Chapter B.19 Authors University of Cincinnati Dr. Chong Ahn is a Professor of Electrical and Computer Engineering at the Department of Electrical University of Cincinnati. He obtained his Ph.D. degree in Electrical Engineering from and Computer Engineering the Georgia Institute of Technology in 1993 and then worked as a postdoctoral fellow and Computer Science at IBM T.J. Watson Research Center. His research interests include all aspects of Cincinnati, OH, USA [email protected] design, fabrication, and characterization of magnetic MEMS devices, microfluidic devices, protein chips, lab-on-a-chips, nano biosensors, point-of-care testing and BioMEMS systems. He is an associate editor of the IEEE Sensors Journal. Boris Anczykowski Chapter C.27 nanoAnalytics GmbH Dr. Boris Anczykowski is a physicist with an extensive research background in the Münster, Germany field of dynamic Scanning Force Microscopy. He co-invented the Q-Control technique [email protected] and received the Innovation Award Münsterland for Science and Economy in 2001 for this achievement. He is a managing director and co-founder of nanoAnalytics GmbH, a company specialized in the characterization of surfaces and interfaces on the micro- and nanometer scale. Massood Z. Atashbar Chapter A.7 Western Michigan University Professor Massood Z. Atashbar received the B.Sc. degree in electrical Department of Electrical engineering from the Isfahan University of Technology, Tehran, Iran, and Computer Engineering the M.Sc. degree in electrical engineering from the Sharif University of Kalamazoo, MI, USA Technology, Tehran, and the Ph.D. degree from the Department of [email protected] Communication and Electronic Engineering, RMIT University, Melbourne, Australia, in 1998.
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  • International Conference on Nuclear Knowledge Management: Strategies, Information Management and Human Resource Development
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  • RESEARCH STATEMENT: My Current Research Interests Lie in the Intersection of Novel III-V Materials, Hetero-Structures, and Photonic and Electronic Quantum Devices
    Department of Electrical and Computer Engineering, Prof. Can Bayram University of Illinois at Urbana-Champaign, IL, USA PROFESSIONAL POSITIONS: 2020 – present Assoc. Prof. (tenured), Electrical and Computer Engineering Dept., Resident Faculty, Nick Holonyak, Jr. Micro and Nanotechnology Laboratory, Affiliate Faculty, Carle Illinois College of Medicine, Engineering Partner, Carle Illinois College of Medicine, University of Illinois at Urbana-Champaign, IL, USA 2014 – 2020 Asst. Prof. (tenure-track), Electrical and Computer Engineering Dept., Resident Faculty, Nick Holonyak, Jr. Micro and Nanotechnology Laboratory, University of Illinois at Urbana-Champaign, IL, USA 2011 – 2014 Postdoctoral Research Scientist, IBM Research, Thomas J. Watson Research Center, Yorktown Heights, NY, USA EDUCATION: 2005 – 2011 Ph.D. (Electrical Engineering) Northwestern University, Illinois, USA Ph.D. focus on Solid State Devices and Photonics 2001 – 2005 B.S. (Electrical Engineering) Bilkent University, Ankara, TURKEY B.S. focus on Physical Electronics RESEARCH STATEMENT: My current research interests lie in the intersection of novel III-V materials, hetero-structures, and photonic and electronic quantum devices. Particularly, my research group explores III-V materials and novel devices, hetero-integration of III-Vs on unconventional platforms such as graphene and silicon, heat transport across/through semiconductors, efficiency droop mechanisms and remedies in AlInGaN emitters, and ultra- fast THz photonics/electronics. My work is interdisciplinary. My team
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  • Infrared and Ultra-Violet Regions
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  • Challenges for Decommissioning Policies
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  • COURSE: EMA 4645, Section 061B Title: Processing of Ceramic Materials Fall 2016
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  • Ceramic Materials
    Material Science I Ceramic Materials F. Filser & L.J. Gauckler ETH-Zürich, Departement Materials [email protected] HS 2007 Ceramics: Introduction 1 Material Science I Persons in Charge of this Lecture • Dr. F. Filser, HCI G 529, phone 26435, [email protected] • Prof. Dr. L.J. Gauckler HCI G 535, phone 25646, [email protected] • F. Krauss HCI G 538, phone 3 68 34, [email protected] • Dipl.-Ing. J. Kübler EMPA Dübendorf, phone 044 823 4223, [email protected] Ceramics: Introduction 2 Material Science I Overview & preliminary schedule (HS 2007) Nov 26, 07 Introduction on ceramic materials, technology, applications Dec 03, 07 Crystal structures of ceramic materials Dec 10, 07 Potential well of bonding and physical properties & Examples of Structural ceramic materials Dec 17, 07 Examples of structural ceramic materials Dec 21, 07 term finish Ceramics: Introduction 3 Material Science I Overview & preliminary schedule (FS 2008) Feb 18, 08 term starts (5 x ceramic & 9 x polymer) Feb 19, 08 Glass Feb 26, 08 Toughness (JK) Mar 04, 08 Strength & Weibull statistics (JK) Mar 11, 08 Subcritical crack growth, SPT-Diagrams (JK) Mar 18, 08 Proof-testing, creep, thermical properties (JK) Apr 01, 08 polymer part (Prof. D. Schlüter) May 30, 08 term finish Ceramics: Introduction 4 Material Science I Documentation Visit our homepage @ http://ceramics.ethz.ch -> education -> courses -> Materialwissenschaft I und II Ceramics: Introduction 5 Material Science I Sources of Information - ETH Bib -NEBIS http://www.ethbib.ethz.ch/ http://www.nebis.ch/ Ceramics: Introduction 6 Material Science I Recommended Reading • Askeland & Phulé: Science and Engineering of Materials, 2003 • Barsoum MW: Fundamentals of Ceramics.
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