Abstract
Self-propagating high-temperature synthesis (solid-flame combustion) is simulated based on a layered model in which the product is formed between the layers of initial reactants due to solid-phase diffusion in nonisothermal conditions; in this case, the combustion wave propagates along these layers. It is found that cords of thickness up to 50 μm made of aluminium and nickel layers are fully converted into high-temperature melt. The results of calculation make it possible to optimize processes of welding and soldering of thermosensitive materials and parts of electronic components of various devices.
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