Abstract
Brazing is realized by joining the added material to the base material thus it is realised a solid joint between materials. The degree of dissolution of materials used in assembly is very important in realization of sustainable bimetallic joints that can be stamped successfully. The stamping creates areas where joints can give the size and material compression degrees because its variation. A better stamping of these bimetallic brazed plates can be obtained through the exactly determination of these material areas.
Highlights
Brazing is realized by many procedures, most common are the torch brazing, the furnace brazing and the induction brazing [1]: - the torch brazing - is a method frequently used, the added material being heated until brazing temperature with flame
We can choose a brazing process according to the joined materials, the brazing flows used for filler material and the properties of adhesion to the base materials considering the economic aspect
We propose to choose the correctly brazing materials and to determine areas where the joint is more vulnerable in the brazing process
Summary
Brazing is realized by many procedures, most common are the torch brazing, the furnace brazing and the induction brazing [1]: - the torch brazing - is a method frequently used, the added material being heated until brazing temperature with flame. That method is very used because are and is realized manually or automatically; - the furnace brazing - the heating of added material is realized with a furnace continually or discontinuous, with or without controlled atmosphere, or even with vide; - the induction brazing - that type of brazing use a current from an induction coil and is directed to added material until the flow temperature. We propose to choose the correctly brazing materials and to determine areas where the joint is more vulnerable in the brazing process. All these factors are interrelated and the knowledge of them leads to a better deepening of the phenomena
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