摘要
对自行研制的一种锌基合金(可取代HPb59-1黄铜)的挤压型材组织与性能进行研究,并与某厂研制的一种锌基合金进行比较。结果表明:自行研制的锌基合金在挤压温度为350℃,挤压比为17.5和挤出速度为20mm/s的挤压工艺下可顺利实现挤压成形;挤压所得表链型材抗拉强度达到375MPa,切削性能良好,组织致密,表面质量好;挤压后合金组织为完全再结晶组织,其局部还出现再结晶晶粒聚集长大的现象;在人造海水中腐蚀30d后没有明显的晶间腐蚀倾向。
The extruded profile's microstructure and properties of a self-developed zinc-based alloy which can replace HPb59-1 brass were studied and compared with a zinc-based alloy prepared in a factory. The results show that the feasible extrusion process of the self-developed zinc-based alloy is obtained when heated to 350 ℃, extruded with a ratio of 17.5, extruded at the rate of 20 ram/s; the tensile strength σb of the extruded chain profile is 375 MPa. The profile has good cutting performance, dense microstructure and excellent surface quality. Complete re-crystallization and local grain coarsening take place in the extruded profile; especially, there is no obvious tendency of inter-crystalline corrosion after exposed in manmade sea water for 30 d.
出处
《中南大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
2008年第2期246-250,共5页
Journal of Central South University:Science and Technology
基金
云南省省院省校科技合作计划项目(2003UABAB05A050)
中南大学学生创新性实验计算项目(LC07117)
关键词
锌基合金
挤压型材
切削性能
抗拉强度
显微组织
腐蚀
zinc-based alloy
extruded profile
cutting performance
tensile strength
microstructure
corrosion