Affiliation:
1. Hiroshima University
2. Kawasaki Heavy Industries
Abstract
For automotive industries, weight of an automobile can be reduced if TRIP steel which has excellent mechanical properties dominated by strain-induced martensitic transformation (SIMT) can be applied to shock absorption members. However, strain rate sensitivity of TRIP steels has not been fully understood because a relationship between a strain rate and an amount of martensite produced by SIMT is still unclear. In previous studies, volume resistivity and impedance have been measured to obtain information on the amount of produced martensite, however, these studies have not been succeeded to clarify the relationship. Here, by focusing a property that martensite shows ferromagnetism, it is attempted that impedance of TRIP steel is measured at various strain rates during the deformation by using prototype coil and circuits.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference7 articles.
1. I. Tamura, On the TRIP steel (Strain-induced transformation and transformation-induced plasticity), J. the Iron Steel Inst. Jpn. 56 (1970) 429-445. (in Japanese).
2. H. Date, Estimation of volume fraction martensite induced austenitic strainless during the tensile deformation by the resistivity and specimen configuration dependency, J. Soc. Mater. Sci. Jpn. 60 (2011) 721-727. (in Japanese).
3. S. Yamanaka, T. Iwamoto, T. Sawa, Study on capturing transformation-thermomechanical behavior of TRIP steel during impact compression, Mater. Res. Innov. 15 (2011) s131-s134.
4. B. D. Westermo and L. D. Thompson, Design and evaluation of passive and active structure health monitoring system for bridges and buildings, SPIE 2446 (1995) 37-46.
5. M. Ohori and T. Fujita, Maximum strain sensor using steels having TRIP effects, Product Res. 52 (2000) 39-42. (in Japanese).
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