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Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)

The study is about impact of a short elastic rod (or slug) on a stationary semi-infinite viscoelastic rod. The viscoelastic materials are modeled as standard linear solid which involve three material parameters and the motion is treated as one-dimensional. We first establish the governing equations...

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Main Author: Musa A.B.
Other Authors: 55669784800
Format: Conference paper
Published: Newswood Limited 2023
Subjects:
Interface stress
Interface velocity
Ratios of acoustic impedances
Viscoelastic
Viscosity time constants
Acoustic impedance
Boundary conditions
Laplace transforms
Velocity
Viscosity
Wave propagation
Moving discontinuities
Standard linear solid models
Standard linear solids
Time constants
Visco-elastic material
Viscoelasticity
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id my.uniten.dspace-29481
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spelling my.uniten.dspace-294812023-12-28T14:30:12Z Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model) Musa A.B. 55669784800 Interface stress Interface velocity Ratios of acoustic impedances Viscoelastic Viscosity time constants Acoustic impedance Boundary conditions Laplace transforms Velocity Viscosity Wave propagation Interface stress Interface velocity Moving discontinuities Standard linear solid models Standard linear solids Time constants Visco-elastic material Viscoelastic Viscoelasticity The study is about impact of a short elastic rod (or slug) on a stationary semi-infinite viscoelastic rod. The viscoelastic materials are modeled as standard linear solid which involve three material parameters and the motion is treated as one-dimensional. We first establish the governing equations pertaining to the impact of viscoelastic materials subject to certain boundary conditions for the case when an elastic slug moving at a speed V impacts a semi-infinite stationary viscoelastic rod. The objective is to predict stresses and velocities at the interface following wave transmissions and reflections in the slug after the impact using viscoelastic discontinuity. If the stress at the interface becomes tensile and the velocity changes its sign, then the slug and the rod part company. If the stress at the interface is compressive after the impact, the slug and the rod remain in contact. After modelling the impact and solve the governing system of partial differential equations in the Laplace transform domain. We invert the Laplace transformed solution numerically to obtain the stresses and velocities at the interface for several viscosity time constants and ratios of acoustic impedances. In inverting the Laplace transformed equations, we used the complex inversion formula because there is a branch cut and infinitely many poles within the Bromwich contour. In the discontinuity analysis, we look at the moving discontinuities in stress and velocity using the impulse-momentum relation and kinematical condition of compatibility. Finally, we discussed the relationship of the stresses and velocities using numeric and the predictable stresses and velocities using viscoelastic discontinuity analysis. � 2012 Newswood Limited. All rights reserved. Final 2023-12-28T06:30:12Z 2023-12-28T06:30:12Z 2012 Conference paper 2-s2.0-84929389806 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84929389806&partnerID=40&md5=a1c7223590ab465d7d874076135bbe2e https://irepository.uniten.edu.my/handle/123456789/29481 2197 64 70 Newswood Limited Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Interface stress
Interface velocity
Ratios of acoustic impedances
Viscoelastic
Viscosity time constants
Acoustic impedance
Boundary conditions
Laplace transforms
Velocity
Viscosity
Wave propagation
Interface stress
Interface velocity
Moving discontinuities
Standard linear solid models
Standard linear solids
Time constants
Visco-elastic material
Viscoelastic
Viscoelasticity
spellingShingle Interface stress
Interface velocity
Ratios of acoustic impedances
Viscoelastic
Viscosity time constants
Acoustic impedance
Boundary conditions
Laplace transforms
Velocity
Viscosity
Wave propagation
Interface stress
Interface velocity
Moving discontinuities
Standard linear solid models
Standard linear solids
Time constants
Visco-elastic material
Viscoelastic
Viscoelasticity
Musa A.B.
Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)
description The study is about impact of a short elastic rod (or slug) on a stationary semi-infinite viscoelastic rod. The viscoelastic materials are modeled as standard linear solid which involve three material parameters and the motion is treated as one-dimensional. We first establish the governing equations pertaining to the impact of viscoelastic materials subject to certain boundary conditions for the case when an elastic slug moving at a speed V impacts a semi-infinite stationary viscoelastic rod. The objective is to predict stresses and velocities at the interface following wave transmissions and reflections in the slug after the impact using viscoelastic discontinuity. If the stress at the interface becomes tensile and the velocity changes its sign, then the slug and the rod part company. If the stress at the interface is compressive after the impact, the slug and the rod remain in contact. After modelling the impact and solve the governing system of partial differential equations in the Laplace transform domain. We invert the Laplace transformed solution numerically to obtain the stresses and velocities at the interface for several viscosity time constants and ratios of acoustic impedances. In inverting the Laplace transformed equations, we used the complex inversion formula because there is a branch cut and infinitely many poles within the Bromwich contour. In the discontinuity analysis, we look at the moving discontinuities in stress and velocity using the impulse-momentum relation and kinematical condition of compatibility. Finally, we discussed the relationship of the stresses and velocities using numeric and the predictable stresses and velocities using viscoelastic discontinuity analysis. � 2012 Newswood Limited. All rights reserved.
author2 55669784800
author_facet 55669784800
Musa A.B.
format Conference paper
author Musa A.B.
author_sort Musa A.B.
title Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)
title_short Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)
title_full Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)
title_fullStr Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)
title_full_unstemmed Predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (Standard linear solid model)
title_sort predicting wave velocity and stress of impact of elastic slug and viscoelastic rod using viscoelastic discontinuity analysis (standard linear solid model)
publisher Newswood Limited
publishDate 2023
_version_ 1806425681197793280
score 13.214268

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