几种挤压型铜磷合金的组织与性能

T. Sheppard, H. L. Yiu
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引用次数: 4

摘要

摘要:采用挤压铸造和热处理工艺制备了5种Cu-P合金。本文报道了挤压变量对合成组织和性能的影响。结果表明,α相的再结晶组织是变形过程中动态再结晶形成的。α晶粒尺寸由工艺参数决定,但在两相合金中受到Cu3P相的显著影响,因此只能用挤压比和温度补偿应变率的函数来量化α晶粒尺寸。第二相的大量存在对变形过程有很大的影响,在挤压过程中Cu3P被破坏或拉长。其力学性能受挤压条件的影响,并可通过α相的析出和Cu3P相的聚并进一步改善。并介绍了拉伸试验中断裂的机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstructure and properties of some extruded copper–phosphorus alloys
Abstract Five Cu-P alloys have been produced by extruding cast and heat treated billets. This paper reports the effects of the extrusion variables on the resultant structure and properties. It is shown that the recrystallized structure observed in the α phase is produced by dynamic recrystallization occurring during the deformation process. The α grain size is determined by the processing parameters, but considerably modified in the two phase alloys by the Cu3P phase such that it may be quantified only by expressing it as a function of both extrusion ratio and temperature compensated strain rate. The deformation process is considerably affected by the large volume of second phase: the Cu3P being either broken or elongated during the extrusion process. The mechanical properties are influenced by the extrusion conditions and may be further modified by an annealing process which causes precipitation in the α phase and coalescence of the Cu3P phase. The mechanism of fracture during tensile testing is also rep...
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