Polymer foams as advanced energy absorbing materials for sports applications—A review

The use of polymer foams is becoming increasingly important due to the attainable weight reduction and value‐added properties. The development of foam structures is a popular research area as they have outstanding energy absorbing capability, which is related to the special deformation mechanisms of...

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Published inJournal of applied polymer science Vol. 139; no. 9
Main Authors Tomin, Márton, Kmetty, Ákos
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 05.03.2022
Wiley Subscription Services, Inc
Subjects
Damping
Deformation mechanisms
Energy absorption
engineering
impact testing
Impact tests
material science
Materials science
Mechanical properties
Multilayers
Plastic foam
Plastic foams
polymer foam
Polymers
Sports
sports application
Weight reduction
Online AccessGet full text
ISSN0021-8995
1097-4628
DOI10.1002/app.51714

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Abstract The use of polymer foams is becoming increasingly important due to the attainable weight reduction and value‐added properties. The development of foam structures is a popular research area as they have outstanding energy absorbing capability, which is related to the special deformation mechanisms of the cell structure (cell wall buckling and collapse of the cells). This property is exploited by the sports industry, where the main task of such products is to protect the health of the athlete and to ensure safe sports conditions. This review provides a comprehensive presentation of the advanced energy absorbing applications of polymeric foams in sports. The article presents in detail the processing technologies of polymer foams, as well as the sports‐specific regulations which contain the requirements for sports products. The impact damping of polymeric foams is typically determined by falling weight impact tests, which were used in several previous studies. However, it is a great challenge to compare the published results, as the test parameters and the tested materials are different. Currently, an unexplored field of research is the detailed study of multilayer sandwich foam structures. Understanding the effect of layer order on mechanical properties would help researchers achieve a major improvement in this field.
AbstractList The use of polymer foams is becoming increasingly important due to the attainable weight reduction and value‐added properties. The development of foam structures is a popular research area as they have outstanding energy absorbing capability, which is related to the special deformation mechanisms of the cell structure (cell wall buckling and collapse of the cells). This property is exploited by the sports industry, where the main task of such products is to protect the health of the athlete and to ensure safe sports conditions. This review provides a comprehensive presentation of the advanced energy absorbing applications of polymeric foams in sports. The article presents in detail the processing technologies of polymer foams, as well as the sports‐specific regulations which contain the requirements for sports products. The impact damping of polymeric foams is typically determined by falling weight impact tests, which were used in several previous studies. However, it is a great challenge to compare the published results, as the test parameters and the tested materials are different. Currently, an unexplored field of research is the detailed study of multilayer sandwich foam structures. Understanding the effect of layer order on mechanical properties would help researchers achieve a major improvement in this field.
Author Tomin, Márton
Kmetty, Ákos
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  organization: Budapest University of Technology and Economics
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  givenname: Ákos
  orcidid: 0000-0001-6029-3229
  surname: Kmetty
  fullname: Kmetty, Ákos
  email: kmetty@pt.bme.hu
  organization: MTA–BME Research Group for Composite Science and Technology
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Snippet The use of polymer foams is becoming increasingly important due to the attainable weight reduction and value‐added properties. The development of foam...
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crossref
wiley
SourceType Aggregation Database
Enrichment Source
Index Database
Publisher
SubjectTerms Damping
Deformation mechanisms
Energy absorption
engineering
impact testing
Impact tests
material science
Materials science
Mechanical properties
Multilayers
Plastic foam
Plastic foams
polymer foam
Polymers
Sports
sports application
Weight reduction
Title Polymer foams as advanced energy absorbing materials for sports applications—A review
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fapp.51714
https://www.proquest.com/docview/2604787316
Volume 139
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