Cu-5.6Sn-0.15P带材弯折解理机理

郭丽丽; 张建波; 赵峰; 李学帅; 张英; 刘维民

doi:10.15980/j.tzzz.2015.01.029

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Cu-5.6Sn-0.15P带材弯折解理机理
Mechanism of Cu-5.6Sn-0.15PBending Performance
2015年35卷第1期页码：97-100
纸质出版日期： 2015 ，
DOI： 10.15980/j.tzzz.2015.01.029

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[1]郭丽丽,张建波,赵峰,李学帅,张英,刘维民.Cu-5.6Sn-0.15P带材弯折解理机理[J].特种铸造及有色合金,2015,35(01):97-100.

Guo Lili, Zhang Jianbo, Zhao Feng, et al. Mechanism of Cu-5.6Sn-0.15PBending Performance[J]. Special Casting & Nonferrous Alloys, 2015,35(1):97-100.
[1]郭丽丽,张建波,赵峰,李学帅,张英,刘维民.Cu-5.6Sn-0.15P带材弯折解理机理[J].特种铸造及有色合金,2015,35(01):97-100. DOI： 10.15980/j.tzzz.2015.01.029.

Guo Lili, Zhang Jianbo, Zhao Feng, et al. Mechanism of Cu-5.6Sn-0.15PBending Performance[J]. Special Casting & Nonferrous Alloys, 2015,35(1):97-100. DOI： 10.15980/j.tzzz.2015.01.029.

摘要

通过原子光谱、金相显微镜、扫描电镜等手段

观察分析了锡磷青铜合金的成分、组织和性能

研究了合金弯折易断的机理及成因。通过调整冷加工、中间热处理、成品热处理和加工率等关键工艺参数

使合金晶粒度由工艺调整前的35

0μm降低至工艺调整后的10

0μm

合金的横纵向弯折性能得到明显的提高。结果表明

Cu-5.6Ni-0.15P合金弯折解理的主因为S含量过高

导致S偏聚

Cu、Sn、Zn和S组成的第二相主要分布于沿轧制方向的晶界上。

Abstract

By atomic spectrum analysis and metallographic microscope

SEM and other testing equipment

composition

microstructure and property characteristics of the tin phosphor bronze alloy were investigated

and the mechanism and origination of bending breakage of the alloy were analyzed.By adjusting the cold working

intermediate heat treatment

product heat treatment and processing rate

grain size is decreased from 35

0μm before adjustment to 10

0μm

and the transverse-longitudinal bending performance of the alloy is improved obviously.The results reveal that origination of the Cu-5.6Ni-0.15 Palloy bended breakage is attributed to S segregation as a result of excessive S content and the second phase composed of Cu、Sn、Zn、S distributed along the rolling direction of grain boundary.

关键词

锡磷青铜横向弯曲性能SEM

Keywords

BronzeTransverse Bending PerformanceSEM

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