Displaying all 7 results
- Conference Session
- Materials Lab Experiments and Demonstrations
- Collection
- 2010 Annual Conference & Exposition
- Authors
- Lori Rosario, Rochester Institute of Technology; Elizabeth Dell, Rochester Institute of Technology
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- Materials
AC 2010-593: BIODEGRADABILITY OF PLASTICS TESTING IN ANUNDERGRADUATE MATERIALS LABORATORY COURSELori Rosario, Rochester Institute of Technology Lori Rosario is a graduate student at the Rochester Institute of Technology in Mechanical & Manufacturing Systems Integration. She completed her B.S.in Mechanical Engineering Technology. She has completed internships at Johnson and Johnson McNeil Consumer Healthcare, Delphi Automotive Systems and the Center for Integrated Manufacturing Systems (CIMS)at the Rochester Institute of Technology as a Fuel Cells Research Engineer.Elizabeth Dell, Rochester Institute of Technology Elizabeth Dell is an Assistant Professor of Manufacturing & Mechanical
- Conference Session
- Materials Lab Experiments and Demonstrations
- Collection
- 2010 Annual Conference & Exposition
- Authors
- Michael Kessler, Iowa State University; Prashanth Badrinarayanan, Iowa State University
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- Materials
AC 2010-2182: LABORATORY EXPERIMENTS IN THERMAL ANALYSIS OFPOLYMERS FOR A SENIOR/GRADUATE LEVEL MATERIALS SCIENCECOURSEMichael Kessler, Iowa State University Michael Kessler is an Assistant Professor of Materials Science and Engineering at Iowa State University. His research interests include the mechanics and processing of polymers and polymer matrix composites, thermal analysis, fracture mechanics, and biologically inspired materials.Prashanth Badrinarayanan, Iowa State University Prashanth Badrinarayanan is a Postdoctoral Research Associate in the Department of Materials Science and Engineering at Iowa State University. His research interests include development and characterization of
- Conference Session
- Materials Selection & Design
- Collection
- 2010 Annual Conference & Exposition
- Authors
- James Olshefsky, ASTM International
- Tagged Divisions
- Materials
, products, systems, and services.Modern day standardization began with the onset of the Industrial Revolution in the 19th centuryand the increased need to efficiently manufacture and transport goods. In the U.S., severalprivate voluntary organizations were formed to develop technical standards in this era: 1880 – American Society of Mechanical Engineers (ASME) 1884 - The Institute of Electrical and Electronics Engineers (IEEE) 1894 – Underwriters Laboratories (UL) 1898 – American Society for Testing and Materials (ASTM) 1910 – Society of Automotive Engineers (SAE)Today there are some 600 private U.S.-based standards developers. The American NationalStandards Institute (ANSI), founded in 1918, is a private, non
- Conference Session
- Innovations in Materials Education
- Collection
- 2010 Annual Conference & Exposition
- Authors
- David Cottrell, University of North Carolina, Charlotte; Chung-Suk Cho, University of North Carolina, Charlotte; Na Lu, University of North Carolina, Charlotte; Robert Swan, University of North Carolina, Charlotte
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- Materials
, University of North Carolina, Charlotte MR. ROBERT H. SWAN, JR., is a Faculty Associate and the Director of Laboratories at the University of North Carolina at Charlotte, Department of Engineering Technology. Though Mr. Swan is relatively new to teaching, he has brought to the university over 25 years of work experience involving geotechnical and materials testing and engineering. He has owned and managed various testing laboratories with an emphases on performance testing of geosynthetics and soil-geosynthetic interaction. He is a proponent of test method and equipment development and Quality System implantation
- Conference Session
- Materials Lab Experiments and Demonstrations
- Collection
- 2010 Annual Conference & Exposition
- Authors
- Hui Shen, Ohio Northern University
- Tagged Divisions
- Materials
requiredto take a materials science course. The course includes a laboratory component to help studentsgain hands-on experiences in materials testing. In traditional experiments, students are providedwith detailed instructions for completing the procedure, use equipment that has already been setup, and perform tests on samples that have already been prepared. This paper describes a self-designed experiment in which students handle almost everything on their own, includingmaterial selection, sample preparation, procedure design, test setup, data collection, and resultanalysis. Prior to undertaking the self-designed experiment, students have finished severalregular experiments such as material microstructure observation, Charpy test and tensile test
- Conference Session
- Materials Selection & Design
- Collection
- 2010 Annual Conference & Exposition
- Authors
- Patricia Mellodge, University of Hartford; Diane Folz, Virginia Tech
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- Materials
AC 2010-1459: A SUMMER TRANSITIONAL PROGRAM FOR ANUNDERGRADUATE INTERDISCIPLINARY RESEARCH PROJECT: PLANNINGAND ASSESSMENTPatricia Mellodge, University of Hartford Patricia Mellodge is an Assistant Professor of Electrical Engineering at the University of Hartford. She received a B.S. in Electrical Engineering from the University of Rhode Island. Her graduate work was completed at Virginia Tech where she received an M.S. in Mathematics and an M.S. and Ph.D. in Electrical Engineering. Research interests include control system design, mathematical modeling of microwave processing, and bio-instrumentation.Diane Folz, Virginia Tech Diane Folz is a Senior Research Associate and Laboratory
- Conference Session
- Innovations in Materials Education
- Collection
- 2010 Annual Conference & Exposition
- Authors
- Craig Johnson, Central Washington University
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- Materials
AC 2010-210: EFFECTIVENESS OF VIDEO IN CASTING EDUCATIONCraig Johnson, Central Washington University Page 15.444.1© American Society for Engineering Education, 2010 Effectiveness of Video in Casting Education Craig Johnson, Ph.D., P.E. Central Washington University (CWU)AbstractOur traditional casting course features both lecture and laboratory venues. However it is notedthat many students have never interacted with foundry equipment, and there is a significantlearning curve associated with the ability of a student to execute basic green sand foundryoperations. Education methods were sought to reduce