MATHEMATICAL MODEL FOR CONTACT RESISTANCE OF COLD CONTACT AT SPOT WELDIN

全文:

The practice of spot welding and the numerous results of published researches unambiguously confirm that one of main conditions of forming quality-welded joints is the optimality of the initial resistance of part -to- part rКТ contact. Its value and stability essentially influences the sizes of a kernel, the stability of the process against creating splashes and poor penetration. At the same time, until now, the development of spot welding technologies of rКТ value had been achieved experimentally for each particular welding condition; this is rather laborintensive. According to the conducted research it has been concluded that the rod model is the most acceptable engineering technique among all known methods applied in rough surface models for welded contacts; mainly because it describes the mechanism of contact interaction between two rough surfaces with more simplicity and precision (fig. 1). According to the accepted model of two rough surface contacts, the conductivity in the contact layer is carried out according to nr number of individually parallel micro conductors of d (d→0) diameter, and of a length, formed by deformable rods (micro lugs). One of the constituents of the total electric resistance in such a micro contact rКТ which is caused by the resistance of micro conductors in the contact layer, which has properties different to those of parent metal, is called the internal contact resistance rКВ.

作者简介

A. Mishurenko

Siberian State Aerospace University named after academician M. F. Reshetnev

Russia, Krasnoyarsk

S. Kozlovsky

Siberian State Aerospace University named after academician M. F. Reshetnev

Russia, Krasnoyarsk

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