Thermal stability of short sisal fibre reinforced ENR/PVC composite


Citation

Zhang B. L., . and Chen M., . and Liu H. L., . Thermal stability of short sisal fibre reinforced ENR/PVC composite. pp. 82-87. ISSN 1511-1768

Abstract

The thermal degradation reactions of short sisal fibre reinforced ENR/PVC composite were analysed and studied. It was found that HCl was strongly generated from PVC in the composite between 266C 282.3C which resulted in an exothermal catalysed reaction of the ENR and accelerated the oxidative degradation of ENR/PVC blend. The addition of short sisal fibre raised the thermal stability of the composite. The thermal stability of the composite rose with the increasing amount of short sisal fibre and fell with the increasing ratio of PVC in the composite.


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Abstract

The thermal degradation reactions of short sisal fibre reinforced ENR/PVC composite were analysed and studied. It was found that HCl was strongly generated from PVC in the composite between 266C 282.3C which resulted in an exothermal catalysed reaction of the ENR and accelerated the oxidative degradation of ENR/PVC blend. The addition of short sisal fibre raised the thermal stability of the composite. The thermal stability of the composite rose with the increasing amount of short sisal fibre and fell with the increasing ratio of PVC in the composite.

Additional Metadata

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Item Type: Article
AGROVOC Term: Thermal balance
AGROVOC Term: Sisal
AGROVOC Term: Fibres
AGROVOC Term: Pvc
AGROVOC Term: Degradation
AGROVOC Term: Natural rubber
AGROVOC Term: Epoxy compounds
AGROVOC Term: Elastomers
AGROVOC Term: Swelling
AGROVOC Term: Ageing
Depositing User: Ms. Suzila Mohamad Kasim
Last Modified: 24 Apr 2025 06:28
URI: http://webagris.upm.edu.my/id/eprint/23190

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