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Hurk, Bart Van Den
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Publications (5/5 displayed)
- 2024Effect of UV-water weathering on the mechanical properties of flax-fiber-reinforced polymer compositescitations
- 2023Effect of environmental humidity on the creep behavior of flax fiber-reinforced polymer compositescitations
- 2023Numerical and experimental validation of the static performance of a full-scale flax fiber-polyester composite bridge model to support the design of an innovative footbridgecitations
- 2023Creep analysis of the flax fiber-reinforced polymer composites based on the time–temperature superposition principlecitations
- 2023The application of the accelerated test methods on the creep analysis of flax fiber reinforced polymer compositescitations
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article
The application of the accelerated test methods on the creep analysis of flax fiber reinforced polymer composites
Abstract
<p>Flax fiber-reinforced polymer (FFRP) composites are getting more and more popular in the construction industry as an emerging environmental-friendly material. However, their obvious creep behavior makes it a design concern for the creep development of structures made from FFRP. Though the creep behavior of the FFRP is critical for the structural design, the creep tests before structure design is not common due to the tests can take a very long time. The Time-temperature superposition principle provides a good theoretical basis for the accelerated creep tests to shorten the testing time, but the specific application of the FFRP is not clear and needs to be further developed. This study is to investigate the application methods of the Time-Temperature Superposition Principle (TTSP) theory on the FFRP material with unidirectional fibers. The three most related methods are used for constructing the creep master curves during the TTSP application to determine the most efficient application process of TTSP. The results indicate that the creep of FFRP can be effectively analyzed by the TTSP accelerated creep testing method with the proper application process.</p>