固溶时效对QAl9-4-3铝青铜组织和性能的影响
来源期刊:中国有色金属学报2013年第3期
论文作者:林高用 王莉 许秀芝 曾菊花
文章页码:679 - 686
关键词:铝青铜;固溶;时效;力学性能;耐磨性能
Key words:aluminum bronze; solution; aging; mechanical properties; wear resistance
摘 要:采用SEM、XRD、EDS、TEM、室温拉伸测试、硬度测试、摩擦学性能测试等分析手段,研究时效温度和固溶温度对自行研制的QAl9-4-3铝青铜组织和力学性能的影响。结果表明,随着时效温度的降低或固溶温度的升高,原β硬相区的马氏体特征越来越明显;固溶温度的升高还使β硬相区的面积率增大,使合金的抗拉强度和硬度增大,但降低了伸长率。获得的最佳固溶时效工艺为:(910 ℃, 3 h)固溶后水淬+(480 ℃, 1 h)时效后空冷。该状态下,合金中原β硬相区的显微硬度为270HV,其与α软相的面积比为71:29,使合金具有较好的强韧性配合,抗拉强度为887 MPa,硬度为253HBS,伸长率为7.3%,前两种性能分别较其挤压态合金的提高了22%和33%;其摩擦因数仅略高于挤压态合金的,但磨损率较挤压态合金的降低了27%,表现出较好的耐磨性能。
Abstract: The effects of solution and aging treatment on the microstructure and mechanical properties of QAl9-4-3 aluminum bronze were investigated by SEM, XRD, EDS, TEM, tensile tests, wear tests, micro-hardness and macro-hardness tests. The results show that with the decrease of aging temperature or the increase of solution temperature, the martensite characteristics of the original β hard region becomes more obviously. The increase of solution temperature also results a higher area rate of the β hard region. Such structural characteristics lead to the increases of tensile strength and hardness, and the decrease of elongation. The best process of solution and aging is as follows: solution at 910 ℃ for 3 h,and then aging at 480 ℃ for 1 h. Under this condition, the micro-hardness of the original β region is 270HV,and the area rate of β to α is 71:29, making the obdurability of the alloy preferable: tensile strength of 887 MPa, hardness of 253HBS and elongation of 7.3%. The two former properties are 22% and 33% higher than those of the extruded alloy. The friction coefficient is slightly higher than that of the extruded alloy, but the wear rate is 27% lower than that of the extruded alloy, showing good tribology performance.
林高用1, 2,王 莉1,许秀芝1,曾菊花1
(1. 中南大学 材料科学与工程学院,长沙 410083;
2. 中南大学 有色金属材料科学与工程教育部重点实验室,长沙 410083)
摘 要:采用SEM、XRD、EDS、TEM、室温拉伸测试、硬度测试、摩擦学性能测试等分析手段,研究时效温度和固溶温度对自行研制的QAl9-4-3铝青铜组织和力学性能的影响。结果表明,随着时效温度的降低或固溶温度的升高,原β硬相区的马氏体特征越来越明显;固溶温度的升高还使β硬相区的面积率增大,使合金的抗拉强度和硬度增大,但降低了伸长率。获得的最佳固溶时效工艺为:(910 ℃, 3 h)固溶后水淬+(480 ℃, 1 h)时效后空冷。该状态下,合金中原β硬相区的显微硬度为270HV,其与α软相的面积比为71:29,使合金具有较好的强韧性配合,抗拉强度为887 MPa,硬度为253HBS,伸长率为7.3%,前两种性能分别较其挤压态合金的提高了22%和33%;其摩擦因数仅略高于挤压态合金的,但磨损率较挤压态合金的降低了27%,表现出较好的耐磨性能。
关键词:铝青铜;固溶;时效;力学性能;耐磨性能
LIN Gao-yong1, 2, WANG Li1, XU Xiu-zhi1, ZENG Ju-hua1
(1. School of Materials Science and Engineering, Central South University, Changsha 410083, China;
2. The Key Laboratory of Nonferrous Metal Materials Science and Engineering, Ministry of Educatio)
Abstract:The effects of solution and aging treatment on the microstructure and mechanical properties of QAl9-4-3 aluminum bronze were investigated by SEM, XRD, EDS, TEM, tensile tests, wear tests, micro-hardness and macro-hardness tests. The results show that with the decrease of aging temperature or the increase of solution temperature, the martensite characteristics of the original β hard region becomes more obviously. The increase of solution temperature also results a higher area rate of the β hard region. Such structural characteristics lead to the increases of tensile strength and hardness, and the decrease of elongation. The best process of solution and aging is as follows: solution at 910 ℃ for 3 h,and then aging at 480 ℃ for 1 h. Under this condition, the micro-hardness of the original β region is 270HV,and the area rate of β to α is 71:29, making the obdurability of the alloy preferable: tensile strength of 887 MPa, hardness of 253HBS and elongation of 7.3%. The two former properties are 22% and 33% higher than those of the extruded alloy. The friction coefficient is slightly higher than that of the extruded alloy, but the wear rate is 27% lower than that of the extruded alloy, showing good tribology performance.
Key words:aluminum bronze; solution; aging; mechanical properties; wear resistance
