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Application of geometric algorithm of time-temperature superposition to linear viscoelasticity of rubber compounds

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Abstract

We tested usefulness of a new algorithm of time-temperature superposition to linear viscoelasticity of three kinds of rubber compounds which are conventional in rubber industries. Different from viscoelastic fluids, linear viscoelasticity of rubber compounds are usually measured by temperature-sweep test at fixed frequencies. We converted the viscoelastic data as functions of temperature to those as functions of frequency. We also investigated effect of rubber structures on their linear viscoelasticity.

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References

  • Cho, K. S., 2009, Geometric interpretation of time-temperature superposition, Korea-Austalia Rheol. J. 21, 13–16.

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Authors and Affiliations

  1. Department of Polymer Science and Engineering, Kyungpook National University, Daegu, Korea

    Jung-Eun Bae, Kwang Soo Cho & Kwan Ho Seo

  2. Research and Development Institute, Pyung-hwa Oil Seal Industry Co. LTD., Daegu, Korea

    Dong-Gug Kang

Authors
  1. Jung-Eun Bae
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  2. Kwang Soo Cho
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  3. Kwan Ho Seo
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  4. Dong-Gug Kang
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Correspondence to Kwang Soo Cho.

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Bae, JE., Cho, K.S., Seo, K.H. et al. Application of geometric algorithm of time-temperature superposition to linear viscoelasticity of rubber compounds. Korea-Aust. Rheol. J. 23, 81–87 (2011). https://doi.org/10.1007/s13367-011-0011-9

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  • DOI: https://doi.org/10.1007/s13367-011-0011-9

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