Affiliation:
1. Ural Federal University named after the First President of Russia B. N. Yeltsin
Abstract
Torsion tests allow to study the rheological properties of various materials, including properties in hot state, as well as they allow to conduct physical simulations of real material forming processes, including processes of intensive and alternating deformation. However, it is often a question what size the specimen should have to perform torsion test accurately. The article aims to study the influence of cylindrical specimen size on the distribution of deformation during torsion test. For this purpose, computer simulation of the torsion testing process was performed. The influence of the relative length of the specimen gauge on the deviation of the actual values of the effective strain from the calculated values was quantified. It is shown that the error in the calculation of the effective strain, based on the values of the twist angle and the specimen gauge size, is of 4%. In order to verify the results obtained by computer simulation, the physical simulation was performed. It is shown that the distribution of deformation along the length of the specimen gauge is also significantly influenced by the accuracy of specimen manufacture, as well as the specimen material. In some cases, the error in the calculation of the effective strain, based on the values of the twist angle and the specimen gauge size, can reach more than 80%.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics
Reference16 articles.
1. D. Barraclough, H. Whittaker, K. Nair, Effect of Specimen Geometry on Hot Torsion Test Results for Solid and Tubular Specimens, Journal of Testing and Evaluation. 3-1 (1973) 220-226.
2. A. Johansen, B. Ronning, N. Ryum, Comparison of solid and tubular specimens in hot torsion testing of an aluminum alloy, Aluminum Alloys, Proceedings of ICAA-6. 1 (1988) 559-594.
3. H.-Ch. Wu, Zh. X., Paul, T. Wang, Torsion test of aluminium in the large strain range, International Journal of Plasticity. 13 (1997) 873-892.
4. Mr. Rajkumar, D. Patil1, P.N. Gore, Review the Effect of Specimen Geometry on Torsion Test Results, International Journal of Innovative Research in Science, Engineering and Technology. 12-(2013) 7567-7574.
5. Sh. Khoddam, Y.C. Lam and P.F. Thomson, The effect of the geometry of hot torsion test specimens on the accuracy of the constitutive equation, Steel Research. 2-66 (1995) 45-49.
Cited by
2 articles.
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