P. N. Khomich scite author profile

A numerical framework for simulation of the steady-state thermal behaviour in keyhole mode welding has been developed. It is based on the equivalent heat source concept and consists of two parts: computational thermo-fluid dynamics and heat conduction. The solution of the thermo-fluid dynamics problem by the finite element method for a bounded domain results in a weld pool interface geometry being the input data for a subsequent heat conduction problem solved for a workpiece by a proposed boundary element method. The main physical phenomena, such as keyhole shape, thermo-capillary and natural convection and temperature-dependent material properties are taken into consideration. The developed technique is applied to complete-penetration keyhole laser beam welding of a 15 mm thick low-alloyed steel plate at a welding speed of 33 mm s −1 and a laser power of 18 kW. The fluid flow of the molten metal has a strong influence on the weld pool geometry. The thermo-capillary convection is responsible for an increase of the weld pool size near the plate surfaces and a bulge formation near the plate middle plane. The numerical and experimental molten pools, crosssectional weld dimensions and thermal cycles of the heat affected zone are in close agreement.

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Analysis of thermal cycles in resistance flash welding of steels

Karkhin¹,

Khomich²,

Fedotov³

et al. 2008

Welding International

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P. N. Khomich

Calculation-experimental method for the determination of the temperature field in laser welding

Hydrogen diffusion model at welding high-strength steels

Determination of the main characteristics of the temperature field for the evaluation of the type of solidification of weld metal in fusion welding

Assessment of thermal cycles by combining thermo-fluid dynamics and heat conduction in keyhole mode welding processes

Analysis of thermal cycles in resistance flash welding of steels

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