3 edition of Current research in the thermo-mechanics of polymers in the rubbery-glassy range, 1995 found in the catalog.
Includes bibliographical references and index.
|Statement||sponsored by the Applied Mechanics Division, ASME ; edited by Mehrdad Negahban.|
|Series||AMD ;, vol. 203, AMD (Series) ;, v. 203.|
|Contributions||Negahban, Mehrdad., American Society of Mechanical Engineers. Applied Mechanics Division., Joint ASME Applied Mechanics and Materials Summer Meeting (1995 : Los Angeles, Calif.)|
|LC Classifications||TA455.P58 C87 1995|
|The Physical Object|
|Pagination||v, 177 p. :|
|Number of Pages||177|
|LC Control Number||95077199|
The glassy polymers exhibit plastic yielding in compression. The dependence of compressive yield strength on factors such as tensile modulus, glass transition temperature, density, and free volume has been examined. Failure theories for yielding in glassy polymers have been by: This volume represents a continuation of the Polymer Science and Technology series edited by Dr. D. M. Brewis and Professor D. Briggs. The theme of the series is the production of a number of stand alone volumes on various areas of polymer science and : Hardcover.
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Get this from a library. Current research in the thermo-mechanics of polymers in the rubbery-glassy range, presented at the Joint ASME Applied Mechanics and Materials Summer Meeting, Los Angeles, California, June[Mehrdad Negahban; American Society of Mechanical Engineers.
Applied Mechanics Division.;]. Current research in the thermo-mechanics of polymers in the rubbery-glassy range, presented at the Joint ASME Applied Mechanics and Materials Summer Meeting. Morman, Morman, K.N., A thermomechanical model for amorphous polymers in the glassy, transition, and rubber regions.
AMD-vol. Current research in the thermo-mechanics of polymers in the rubbery-glassy range. ASMECited by: In: Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, AMD-vol. ASME, New York. Fully coupled thermo-mechanical micromechanics modelAuthor: Jacob Aboudi.
Abstract. This article reviews recent developments in polymer thermomechanics both in theory and experiment. The first section is concerned with theories of thermomechanics of polymers both in rubbery and solid (glassy and crystalline) states with special emphasis on relationships following from the thermomechanical equations of by: Bushko, W.
C., and Stokes, V. K., c, “The Effects of Boundary Conditions on the Shrinkage and Residual Stresses in Injection-Molded Parts,” in Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, M.
Negahban, ed., AMD-Vol.American Society of Mechanical Engineers, New York, pp. –(to appear in Polymer Engineering and Science).Cited by: R.J. Young, in Encyclopedia of Materials: Science and Technology, 7 Conclusions. Glassy polymers are generally thought to be rather brittle solids but it has been shown that under many circumstances they are capable of undergoing considerable levels of plastic deformation.
Even though they do not have well-defined arrangements of atoms or molecules in their microstructure, there has.
Modelling Damage, Fatigue and Failure of Composite Materials provides the latest research on the field of composite materials, an area that has attracted a wealth of research, with significant interest in the areas of damage, fatigue, and failure.
The book is a comprehensive source of physics-based models for the analysis of progressive and critical failure phenomena in composite materials.
Morman, K.N. : A thermo-mechanical model for amorphous polymers in the glassy, transition, and rubbery regions, Recent Research in Thermo-mechanics of Polymers in The Rubbery-Glassy Range (M. Negahban, ed.) ASME AMD Cited by: 9. Cyclic Viscoplastic-Viscodamage Analysis of Shape Memory Polymers Fibers With Application to Self-Healing Smart Materials Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, ASME, New York.
Shojaei, by: Arrhenius-type temperature dependence of the segmental relaxation below T g. Chem. Phys.Time–Temperature and Time-Aging Time Superposition in Polycarbonate,” in Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, edited by M.
Negahban (American Society of Mechanical Engineers, New York, Cited by: Thermal conductivity is an important property for polymers, as it often affects product reliability (for example, electronics packaging), functionality (for example, thermal interface materials Cited by: M Negahbany, \A thermodynamic theory for characterizing thermo-mechanical response of polymers during crystallization," ASME AMD-Vol.: Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range,().
M Negahbany, \Preliminary results on an e ort to characterize the thermo-mechanical response of amorphous polymers in the glass. High‐performance thermosets: Chemistry, Properties, Applications, by Shiow‐Ching Lin and Eli M. Pearce, Hanser publishers, Munich,pp. Effect of Temperature on the Mechanical Properties of Polymer Mortars The relationships between the test temperature and flexural strength of both formulations of polymer mortar are presented in Figures 4 and 5.
According to Figure 4, between room temperature and 50 °C, only a loss in the ultimate flexural strength is observed. Chadwick, P., ‘Thermo-mechanics of rubberlike materials’, Philosophical Transactions of the Royal Society of London, Series A, – zbMATH ADS Google Scholar Chadwick, P.
and Creasy, C.F.M., ‘Modified entropic elasticity of rubberlike materials’, Journal of the Mechanics and Physics of Sol– zbMATH Cited by: This Third Edition of the classic, best-selling polymer science textbook surveys theory and practice of all major phases of polymer science, engineering, and technology, including polymerization, solution theory, fractionation and molecular-weight measurement, solid-state properties, structure-property relationships, and the preparation, fabrication and properties of commercially-important.
Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, ASME, pages M. Negahban, \A thermodynamic theory for characterizing thermo-mechanical response of polymers during crystallization," AMD-Vol. Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, ASME, pages M.
Mechanical)Properties)of) Polymers) Kamyar)Davoudi) October, Materials)Science)SeminarFile Size: 2MB. Presents a solid introduction to thermal analysis, methods, instrumentation, calibration, and application along with the necessary theoretical background.
Useful to chemists, physicists, materials scientists, and engineers who are new to thermal analysis techniques, and to existing users of thermal analysis who wish expand their experience to new techniques and applications Topics covered.
crystallization,” AMD-Vol. Current Research in the Thermo-Mechanics of Polymers in the Rubbery-Glassy Range, ASME, pages M. Negahban, “Preliminary results on an eﬀort to characterize the thermo-mechanical response of amorphous polymers in the glass-transition range,” MD-Vol.
68/AMD-Vol. Mechanics of Plastics and Plastic Composites, ASME. Finite Thermoelasticity of Constrained Elastomers Subject to Biaxial Loading 1 2 J.D.
HUMPHREY and K.R. RAJAGOPAL Biomedical Engineering Program, Texas A&M University, College Station, TXU.S.A.
Department of Mechanical Engineering, Texas A&M University, College Station, TXU.S.A. Received 14 November ; in revised form “A Thermo-mechanically-coupled Large-deformation Theory for Amorphous Polymers in a Temperature Range Which Spans Their Glass Transition.” International Journal of Plasticity (): Cited by: