Failure of multilayered viscoelastic polymers

C. Wu; S. C. Mantell; J. H. Davidson

Failure of multilayered viscoelastic polymers

C. Wu, S. C. Mantell, J. H. Davidson

Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Failures of multilayered polymers can be categorized into two modes: macroscale failure and microscale failure. Macroscale failure refers to excessive overall creep deformation. Microscale failure refers to microscopic free edge delamination and /or crack propagation due to local concentrated stresses. In the present study, a macroscale model for creep deformation is developed and experimentally verified. For linear viscoelastic materials the model is derived from classical laminate plate theory and is capable of characterizing polymers with directional properties. Creep test results for laminated Nylon66/orthotropic liquid crystalline polymer (linear) specimens agreed well with the analytical model predictions. A case study in which the macroscale failure model is applied to design of multilayered tubes is also presented.

Original language	English (US)
Title of host publication	20th Technical Conference of the American Society for Composites 2005
Pages	1777-1789
Number of pages	13
State	Published - 2005
Event	20th Technical Conference of the American Society for Composites 2005 - Philadelphia, PA, United States Duration: Sep 7 2005 → Sep 9 2005

Publication series

Name	20th Technical Conference of the American Society for Composites 2005
Volume	3

Other

Other	20th Technical Conference of the American Society for Composites 2005
Country/Territory	United States
City	Philadelphia, PA
Period	9/7/05 → 9/9/05

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abstract = "Failures of multilayered polymers can be categorized into two modes: macroscale failure and microscale failure. Macroscale failure refers to excessive overall creep deformation. Microscale failure refers to microscopic free edge delamination and /or crack propagation due to local concentrated stresses. In the present study, a macroscale model for creep deformation is developed and experimentally verified. For linear viscoelastic materials the model is derived from classical laminate plate theory and is capable of characterizing polymers with directional properties. Creep test results for laminated Nylon66/orthotropic liquid crystalline polymer (linear) specimens agreed well with the analytical model predictions. A case study in which the macroscale failure model is applied to design of multilayered tubes is also presented.",

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AU - Mantell, S. C.

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AB - Failures of multilayered polymers can be categorized into two modes: macroscale failure and microscale failure. Macroscale failure refers to excessive overall creep deformation. Microscale failure refers to microscopic free edge delamination and /or crack propagation due to local concentrated stresses. In the present study, a macroscale model for creep deformation is developed and experimentally verified. For linear viscoelastic materials the model is derived from classical laminate plate theory and is capable of characterizing polymers with directional properties. Creep test results for laminated Nylon66/orthotropic liquid crystalline polymer (linear) specimens agreed well with the analytical model predictions. A case study in which the macroscale failure model is applied to design of multilayered tubes is also presented.

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T2 - 20th Technical Conference of the American Society for Composites 2005

Y2 - 7 September 2005 through 9 September 2005

ER -

Failure of multilayered viscoelastic polymers

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