Mathematical model of the thermal processing of steel ingots: Part II. Stress model

Metallurgical Transactions B - Tập 18 - Trang 131-147 - 1987
B. G. Thomas1, I. V. Samarasekera2, J. K. Brimacombe2
1the Department of Mechanical and Industrial Engineering, University of Illinois, Urbana
2The Centre for Metallurgical Process Engineering at the University of British Columbia, Vancouver, Canada

Tóm tắt

A mathematical model has been developed to predict the internal stresses generated in a steel ingot during thermal processing. The thermal history of the ingot has been predicted by a finite-element, heat-flow model, the subject of the first part of this two-part paper, which serves as input to the stress model. The stress model has been formulated for a two-dimensional transverse plane at mid-height of the ingot and is a transient, elasto-viscoplastic, finite-element analysis of the thermal stress field. Salient features of the model include the incorporation of time-temperature and temperature-dependent mechanical properties, and volume changes associated with nonequilibrium phase transformation. Model predictions demonstrate that the development of internal stresses in the ingot during thermal processing can be directly linked to the progress of the phase transformation front. Moreover, the low strain levels calculated indicate that metallurgical embrittlement must be very important to the formation of cracks in addition to the development of high tensile stresses.

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Metallurgical Transactions B

Tập 18

131-147

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