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Structural Analysis of Thermoplastic Components
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How to predict thermoplastics behavior in high-performance structural applications Here's the very first engineering resource with all the data and design/analysis techniques you need to work with even the newest thermoplastics. Structural Analysis of Thermoplastic Components by Gerry Trantina and Ron Nimmer shows you how to predict stiffness, creep and fatigue of polymeric components--PLUS non-homogeneous materials such as structural foams and composites. You'll benefit from detailed comparisons of analytic prediction versus measured behavior and much more: Nonstandard property measurement an...
How to predict thermoplastics behavior in high-performance structural applications Here's the very first engineering resource with all the data and design/analysis techniques you need to work with even the newest thermoplastics. Structural Analysis of Thermoplastic Components by Gerry Trantina and Ron Nimmer shows you how to predict stiffness, creep and fatigue of polymeric components--PLUS non-homogeneous materials such as structural foams and composites. You'll benefit from detailed comparisons of analytic prediction versus measured behavior and much more: Nonstandard property measurement and analysis; Nonlinearities associated with large deformations; Using structural geometry to offset low material stiffness; Designing thermoplastics to withstand impacts; Important loading variables, component lifetimes, frequency effects, hysteric heating and cyclic crack growth.
Review quote:
``This comprehensive guide allows readers to improve their engineering design analysis skills. It offers specific analysis techniques, detailed discussions of mechanical behavior and the latest structural design techniques. It Includes a general discussion of finite element analysis with special emphasis on geometric and meterial nonlinearities. In addition, there are numerous examples that illustrate how well thermoplastic behavior can be predicted''
Table of contents:
Introduction. Materials Processing and Design. Finite Element Analysis Techniques and Nonlinear Issues. Stiffness. Failure. Designing for Impact with Plastic Material. Time-Dependent Part Performance. Fatigue: Cycle-Dependent Part Performance. Closure.
Because thermoplastics have been used in high-performance structural applications only recently, there is a great need for data on their behavior. This is the first book dedicated solely to the engineering design analysis of thermoplastic parts. It offers mechanical engineers and materials scientists specific design techniques for predicting stiffness, strength, creep, and fatigue of polymetric components. Also included is important information on the use of non-homogeneous materials such as structural foams and thermoplastic composites. This authoritative reference featues detailed coverage of such techniques as finite element analysis and geometric and material nonlinearity. In addition, there are many examples that illustrate how well thermoplastic behavior can actually be predicted, including detailed comparisons of analytic predictions with actual, measured behavior.
Review quote:
``This comprehensive guide allows readers to improve their engineering design analysis skills. It offers specific analysis techniques, detailed discussions of mechanical behavior and the latest structural design techniques. It Includes a general discussion of finite element analysis with special emphasis on geometric and meterial nonlinearities. In addition, there are numerous examples that illustrate how well thermoplastic behavior can be predicted''
Table of contents:
Introduction. Materials Processing and Design. Finite Element Analysis Techniques and Nonlinear Issues. Stiffness. Failure. Designing for Impact with Plastic Material. Time-Dependent Part Performance. Fatigue: Cycle-Dependent Part Performance. Closure.
Because thermoplastics have been used in high-performance structural applications only recently, there is a great need for data on their behavior. This is the first book dedicated solely to the engineering design analysis of thermoplastic parts. It offers mechanical engineers and materials scientists specific design techniques for predicting stiffness, strength, creep, and fatigue of polymetric components. Also included is important information on the use of non-homogeneous materials such as structural foams and thermoplastic composites. This authoritative reference featues detailed coverage of such techniques as finite element analysis and geometric and material nonlinearity. In addition, there are many examples that illustrate how well thermoplastic behavior can actually be predicted, including detailed comparisons of analytic predictions with actual, measured behavior.