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WRC 123

M00023237

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WRC 123 Fundamentals of Heat Flow in Welding

Bulletin / Circular by Welding Research Council, Inc., 1967

P.S. Meyers, O.A. Uyehara, G.L. Borman

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The quality of a weld is a function of many factors: the type and quality of metal deposited, the heat treatment inevitably experienced by the deposited metal and by the parent metal around the weld (the heat-affected zone), and the residual stresses left in both the parent and deposited metal.

This discussion will be concerned with the quality of a weld as affected by heat flow, that is, temperature and temperature histories. Both temperature and time affect the heat treatment experienced by both the deposited and parent metal. Temperature and temperature distributions affect expansion and contraction and the relationship between stress and strain and thus, residual stresses. These relationships are known but because of the complexity of the heat flow and stress-strain relationships, few quantitative relationships useful to a practicing welding engineer exist. Thus reliance has been quite properly placed on experience and an empirically developed knowledge. Fundamental work in understanding these relationships has been going on and while completely precise relationships are not yet available, the subject is now well enough systematized to serve as useful background material for a practicing welding engineer.

The present discussion is aimed at presenting this work in such a fashion as to be understandable and useful to a practicing engineer who may have forgotten some of his previous training in mathematics and heat transfer. In this connection, conciseness and preciseness may sometimes be waived in favor of simplicity of understanding. It is hoped that, nevertheless, researchers working in the field will find this a useful systematization of current knowledge of heat flow in welding.