Method for preparing molybdenum copper alloy by combustion synthesis in high gravity field
A high-gravity field and molybdenum-copper alloy technology is applied in the field of combustion synthesis to prepare molybdenum-copper alloys, which can solve the problems of high porosity and low purity of bulk materials, and achieve the effects of rapid reaction, high temperature and short preparation cycle
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Embodiment 1
[0016] CuO, Al, Mo, Cu, B 2 o 3 The raw materials are uniformly mixed according to the proportions shown in Table 1 and compacted to obtain a thermite prefabricated block with a relative density of 60%, and the obtained thermite prefabricated block is put into a graphite crucible and placed in a high-gravity device; then In a supergravity field with a vacuum degree of 1000Pa and a centrifugal force of 500g, the heat generated by the energized tungsten spiral wire induces a high-temperature thermite reaction between various raw materials in the thermite prefabricated block, and the product of the thermite reaction is the glass ceramic melt. The metal melt is rapidly separated, densified and cooled in a supergravity field to obtain a ceramic solid and a metal solid, and the pure copper layer at one end of the metal solid is removed to obtain a molybdenum-copper alloy.
[0017] Table 1
[0018] components
[0019] Carry out XRD to the obtained molybdenum-copper alloy ...
Embodiment 2
[0021] CuO, Al, Mo, Cu, B 2 o 3 The raw materials are uniformly mixed according to the proportion shown in Table 2 and compacted to obtain a thermite prefabricated block with a relative density of 50%, and the obtained thermite prefabricated block is put into a graphite crucible and placed in a high-gravity device; then In a supergravity field with a vacuum degree of 500Pa and a centrifugal force of 1000g, the heat generated by the electrified tungsten spiral wire induces a high-temperature thermite reaction between various raw materials in the thermite prefabricated block, and the product of the thermite reaction, the glass ceramic melt and The metal melt is rapidly separated, densified and cooled in a supergravity field to obtain a ceramic solid and a metal solid, and the pure copper layer at one end of the metal solid is removed to obtain a molybdenum-copper alloy.
[0022] Table 2
[0023] components
[0024] Carry out XRD, SEM to the obtained molybdenum-copper...
Embodiment 3
[0026] CuO, Al, Mo, Cu, B 2 o 3 The raw materials are uniformly mixed according to the proportions shown in Table 3 and compacted to obtain a thermite prefabricated block with a relative density of 40%, and the obtained thermite prefabricated block is put into a graphite crucible and placed in a high-gravity device; then In a supergravity field with a vacuum degree of 100Pa and a centrifugal force of 3000g, the heat generated by the energized tungsten spiral wire induces a high-temperature thermite reaction between various raw materials in the thermite prefabricated block, and the product of the thermite reaction is the glass ceramic melt. The metal melt is rapidly separated, densified and cooled in a supergravity field to obtain a ceramic solid and a metal solid, and the pure copper layer at one end of the metal solid is removed to obtain a molybdenum-copper alloy.
[0027] table 3
[0028] components
[0029] XRD, SEM analysis and density test were carried out on...
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