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低频电磁铸造Al-Zn-Mg-Cu合金微观组织与性能 被引量:1

The Microstructure and Properties of Low Frequency Electromagnetic Casting Al-Zn-Mg-Cu Alloy
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摘要 采用拉伸性能及电导率测试、透射电镜观察、低应变拉伸试验等手段 ,研究了不同时效工艺对低频电磁铸造Al Zn Mg Cu合金组织和性能的影响。发现合金的T6态峰值时效制度为 12 0℃× 4 8h ,T6处理可使合金强度达到峰值 ,但抗应力腐蚀性能差 ;T73处理后合金强度下降了 5 %~ 6 % ,抗应力腐蚀性能大幅度提高 ;而RRA时效 (回归再时效 )处理基本保持了T6态的强度 ,且抗应力腐蚀性能接近T73态。微观组织分析表明 ,不同时效制度下合金性能的差异主要是由晶内和晶界析出相的大小、形貌及其分布状态决定的。T73和RRA时效处理改善了合金晶界特性 ,有助于阻止氢脆、减缓晶界阳极溶解速度 。 The effects of various ageing treatments on the microstructure and properties of a new type low frequency electromagnetic casting Al Zn Mg Cu alloy were investigated by using tensile properties and electric conductivity test,TEM observations and low strain tensile.The results show that at the peak aging treatment of the alloy of 120℃×48h,the T6 treatment can have high strength but poor SCCR;with T73 treatment the strength decreased 5%~6% but good SCCR,while RRA treatment can maintain the strength as T6 treatment and obtain good SCCR close to T73.Analysis of microstructure shows that the different properties of alloy undertook different aging treatment are determined by the size,morphology and distribution of precipitations in grains and grain boundaries.T73 and RRA treatment improve the grain boundary character,which is help to inhibit hydrogen embrittlement and decrease anodic dissolution rate,then to improve the SCCR of the alloy.
作者 曾渝 尹志民 潘青林 朱远志
机构地区 中南大学材料科学与工程学院
出处 《金属热处理》 CAS CSCD 北大核心 2003年第10期8-11,共4页 Heat Treatment of Metals
基金 国家"8 6 3"高新技术研究项目 (2 0 0 1AA332 0 30 )
关键词 时效 Al—Zn—Mg—Cu合金 回归再时效 微观组织 抗应力腐蚀性能 aging Al-Zn-Mg-Cu alloy RRA (retrogression and reageing) microstructure SCCR(stress corrosion cracking resistance)
分类号 TG166.3 [金属学及工艺—热处理]
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参考文献10

  • 1郑子樵,李红英,莫志民.一种7055型铝合金的RRA处理[J].中国有色金属学报,2001,11(5):771-776. 被引量:63
  • 2Waren. Aluminum alloy product having improved combination of properties[P]. U S Patent :5221377,1993-6-22.
  • 3Robinson J S. Retrogression reaging and residual atresaes in 7010 forgings [ J ]. Fatigue Fracture Engineering Material Structure,1999,22( 1 ) :51-57.
  • 4WU Yilei, Froes F H. Microstucture and properties of a new super -high-strength Al-Zn-Mg-Cu alloy C912[J]. Materials and Design,1997,18(4-6) :211-215.
  • 5Wallace W. Retrogression and reaging response of 7475 aluminum alloy [ J]. Metals Technology, 1983, ( 10 ) : 386-392.
  • 6Braum R. Slow strain rate testing of aluminum alloy 7050 in different tempers using various synthentic environment[J].corrosion,1997,53(6) :467-474.
  • 7Kanno M,Araki I,Cui Q. Precipitation behavior of 7000 alloys during retrogression and reaging treatment[J]. Mater Sci and Technol,1994,10(7) :599-604.
  • 8Burleigh T D. Postulated mechanisms for stress corrosion cracking of aluminum alloys: A review of the literature 1980-1989 [J ]. Corrosion, 1991,47(2) :89-98.
  • 9Rajan K, Wallace W. Micro6tructural study of a high-strength stress-corrosion resistant 7075 aluminum alloy [J].Journal of Materials Science , 1982,17 (3) : 2817-2824.
  • 10Talianker M, Cina B. Retrogression and reaging and the role of dislocations in the stress corrosion of 7000-type aluminum alloys[J]. Metallurgical Transactions A, 20(10), 2087-2092.

二级参考文献3

  • 1Kanno M,Mater Sci Technol,1994年,10卷,7期,599页
  • 2Danh N C,Metal Trans.A,1983年,14卷,9期,1843页
  • 3Rajan K,J Mater Sci,1982年,17卷,2817页

共引文献62

同被引文献8

  • 1Starke E A, Staley J T. Application of modem aluminum alloys to aircraft [J]. Progress in Aerospace Sciences, 1996,32 (2 - 3 ) : 131 - 172.
  • 2James C, Edgar A, Jr Starke. Progress in structural materials for aerospace systems [ J ]. Aeta Materialia,2003,51 ( 19 ) :5775 - 5799.
  • 3David A L, Ray M H. Aluminum alloy development effects for compression dominated structure of aircraft [ J ]. Light Metal Age, 1991,2 (9) : 11 - 15.
  • 4Jonas J J,Sellars C M ,Tegart W J. Strength and structure under hot working conditions [ J ]. International Metallurgical Reviews,1969,130 (14) :1-24.
  • 5Sheppard T,Parson N C,Zaidi M A. Dynamic recrystallization in Al-7Mg alloy[J]. Metal Science,1983,17(10) :481 -490.
  • 6Zener C, Hollomon H. Effect of strain-rate upon the plastic flow of steel [J]. Journal Application Physics, 1944,15 (1) :22 -27.
  • 7MeQueen H J, Imbert C A C. Dynamic recrystallization : plasticity enhancing structural development[ J ]. Journal of Alloys and Compounds,2004,378: 35 - 43.
  • 8金泉林.铝合金6061的热变形力学行为与微观组织演化规律[J].材料热处理学报,2011,32(6):51-57. 被引量:18

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金属热处理
2003年 第10期

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