Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Analysis of Hyperelastic Structures-A Brief Review


Affiliations
1 Central Manufacturing Technology Institute, Tumkur Road, Bangalore-560022, India
     

   Subscribe/Renew Journal


Elastomers are special type of polymers, which are made of long, flexible or string like molecules. Each chain is joined to the nearby chains, known as crosslinks. The process known as Vulcanization adds these crosslinks. The excellent properties of application of these materials make them applicable in variety of fields. Depending on the component application and the type of hyperelastic material thus used, appropriate tests are conducted and the stress-strain data is recorded and the materials constants are calculated using the curve fitting procedures provided by the finite element software. These constants are further used in the non-linear analysis of a trunk door seal. The analysis showed that the stress in the seal is 1.286 N/mm2 for a deformation of about 63mm when the door operates.
User
Subscription Login to verify subscription
Notifications
Font Size

Abstract Views: 237

PDF Views: 0




  • Analysis of Hyperelastic Structures-A Brief Review

Abstract Views: 237  |  PDF Views: 0

Authors

J. R. K. Murthy
Central Manufacturing Technology Institute, Tumkur Road, Bangalore-560022, India
L. Hari Krishna
Central Manufacturing Technology Institute, Tumkur Road, Bangalore-560022, India
C. Gajendran
Central Manufacturing Technology Institute, Tumkur Road, Bangalore-560022, India

Abstract


Elastomers are special type of polymers, which are made of long, flexible or string like molecules. Each chain is joined to the nearby chains, known as crosslinks. The process known as Vulcanization adds these crosslinks. The excellent properties of application of these materials make them applicable in variety of fields. Depending on the component application and the type of hyperelastic material thus used, appropriate tests are conducted and the stress-strain data is recorded and the materials constants are calculated using the curve fitting procedures provided by the finite element software. These constants are further used in the non-linear analysis of a trunk door seal. The analysis showed that the stress in the seal is 1.286 N/mm2 for a deformation of about 63mm when the door operates.