Vernal H. Kenner scite author profile

Vernal H. Kenner

5Publications

118Citation Statements Received

2Citation Statements Given

How they've been cited

269

113

How they cite others

Affiliations

The Ohio State University, Wayne State University, University of California, Berkeley

Publications

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Viscoelastic material characterization and modeling for polyethylene

Popelar

Kenner

1990

Polymer Engineering & Sci

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An extensive set of stress relaxation and constant strain rate tests for characterizing the mechanical responses of a medium density polyethylene and a high density polyethylene that are commonly used in natural gas distribution piping is described and analyzed. The development of coherent master curves for the relaxation modulus, maximum stress, and the time‐to‐failure for pressurized pipes through a combination of both horizontal and vertical shifting is presented. The relaxation data are used to develop a nonlinear Viscoelastic material model. The model is assessed by making comparisons of the predicted stress‐strain response with the measured response in the constant strain rate tests.

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On the hygrothermomechanical characterization of polyvinyl acetate

Knauss¹,

Kenner²

1980

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As a part of a program to understand the mechanisms offailure in time-dependent adhesion and film bonding, the creep compliance of polyvinyl acetate (PVAc) in shear has been determined both as a function of temperature and absorbed moisture. Volumetric expansion as a function of temperature or moisture takeup was also measured. We find that practically realizable changes in moisture content affect both the creep compliance and the swelling of PV Ac to a degree comparable to that resulting from realistic changes in temperature. For example, the creep rates (histories) at corresponding times for PVAc subjected to 92% relative humidity storage are accelerated by approximately four orders of magnitude over those found for the dry material. Moreover, we find within reasonable experimental error that water concentration affects the time scale of creep like temperature through a concentration-dependent shift factor. An attempt is made at discussing the interrelation of temperature-and moisture-induced volume changes.

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A modified mixed-mode bending specimen for the interfacial fracture testing of dissimilar materials

Soboyejo¹,

Lu²,

Chengalva³

et al. 1999

Fat Frac Eng Mat Struct

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An evaluation of a free volume representation for viscoelastic properties

Chengalva

Kenner

Popelar

1995

International Journal of Solids and Structures

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Impact on a simple physical model of the head

Kenner

Goldsmith

1973

Journal of Biomechanics

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Vernal H. Kenner

Viscoelastic material characterization and modeling for polyethylene

On the hygrothermomechanical characterization of polyvinyl acetate

A modified mixed-mode bending specimen for the interfacial fracture testing of dissimilar materials

An evaluation of a free volume representation for viscoelastic properties

Impact on a simple physical model of the head

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