Usefulness of viscoelastic models in learning polymer materials engineering

Usefulness of viscoelastic models in learning polymer materials engineering

The  present  article  makes  a  brief  description  about  the  simplest  mathematical  models  of  viscoelasticity: Maxwell Model and Kelvin-Voigt Model. However, these basic models have a number of limitations because it has considerable differences from reality.  Thus,  the  Burgers  model  is ...

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Main Authors: V. Fombuena, T. Boronat, L. Sánchez-Nácher, D. García-Sanoguera, R. Balart
Format: Article
Language:English
Published: Universitat Politècnica de València 2017-01-01
Series:Modelling in Science Education and Learning
Subjects:
Viscoelasticidad
Modelo Maxwell
Modelo Kelvin-Voigt
Modelo Combinado
Fluencia
Online Access:http://polipapers.upv.es/index.php/MSEL/article/view/6315
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spelling doaj-baeeaebccdfd4195b991f0adbef1e2ec2020-11-24T21:02:06ZengUniversitat Politècnica de ValènciaModelling in Science Education and Learning1988-31452017-01-0110113714810.4995/msel.2017.63155062Usefulness of viscoelastic models in learning polymer materials engineeringV. Fombuena0T. Boronat1L. Sánchez-Nácher2D. García-Sanoguera3R. Balart4Universitat Politècnica de ValènciaUniversitat Politècnica de ValènciaUniversitat Politècnica de ValènciaUniversitat Politècnica de ValènciaUniversitat Politècnica de ValènciaThe  present  article  makes  a  brief  description  about  the  simplest  mathematical  models  of  viscoelasticity: Maxwell Model and Kelvin-Voigt Model. However, these basic models have a number of limitations because it has considerable differences from reality.  Thus,  the  Burgers  model  is  studied  due  to  is  an  appropriate model  to  study  the  viscoelasticity  in  polymers.  By  solving  a  practical  case,  the  usefulness  for  students of  mathematical  models  related  with  process  such  as  creep  or  relaxation  and  their  understanding  and prediction of the mechanical behaviour has been revealed.http://polipapers.upv.es/index.php/MSEL/article/view/6315ViscoelasticidadModelo MaxwellModelo Kelvin-VoigtModelo CombinadoFluencia
collection DOAJ
language English
format Article
sources DOAJ
author V. Fombuena
T. Boronat
L. Sánchez-Nácher
D. García-Sanoguera
R. Balart
spellingShingle V. Fombuena
T. Boronat
L. Sánchez-Nácher
D. García-Sanoguera
R. Balart
Usefulness of viscoelastic models in learning polymer materials engineering
Modelling in Science Education and Learning
Viscoelasticidad
Modelo Maxwell
Modelo Kelvin-Voigt
Modelo Combinado
Fluencia
author_facet V. Fombuena
T. Boronat
L. Sánchez-Nácher
D. García-Sanoguera
R. Balart
author_sort V. Fombuena
title Usefulness of viscoelastic models in learning polymer materials engineering
title_short Usefulness of viscoelastic models in learning polymer materials engineering
title_full Usefulness of viscoelastic models in learning polymer materials engineering
title_fullStr Usefulness of viscoelastic models in learning polymer materials engineering
title_full_unstemmed Usefulness of viscoelastic models in learning polymer materials engineering
title_sort usefulness of viscoelastic models in learning polymer materials engineering
publisher Universitat Politècnica de València
series Modelling in Science Education and Learning
issn 1988-3145
publishDate 2017-01-01
description The  present  article  makes  a  brief  description  about  the  simplest  mathematical  models  of  viscoelasticity: Maxwell Model and Kelvin-Voigt Model. However, these basic models have a number of limitations because it has considerable differences from reality.  Thus,  the  Burgers  model  is  studied  due  to  is  an  appropriate model  to  study  the  viscoelasticity  in  polymers.  By  solving  a  practical  case,  the  usefulness  for  students of  mathematical  models  related  with  process  such  as  creep  or  relaxation  and  their  understanding  and prediction of the mechanical behaviour has been revealed.
topic Viscoelasticidad
Modelo Maxwell
Modelo Kelvin-Voigt
Modelo Combinado
Fluencia
url http://polipapers.upv.es/index.php/MSEL/article/view/6315
work_keys_str_mv AT vfombuena usefulnessofviscoelasticmodelsinlearningpolymermaterialsengineering
AT tboronat usefulnessofviscoelasticmodelsinlearningpolymermaterialsengineering
AT lsancheznacher usefulnessofviscoelasticmodelsinlearningpolymermaterialsengineering
AT dgarciasanoguera usefulnessofviscoelasticmodelsinlearningpolymermaterialsengineering
AT rbalart usefulnessofviscoelasticmodelsinlearningpolymermaterialsengineering
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