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红外热像法预测镁合金的疲劳性能 被引量:7

Infrared Thermography Technology Predicting Fatigue Property of AZ31B Magnesium Alloy
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摘要 对AZ31B镁合金板材在室温下的高周疲劳性能进行了研究,用红外成像仪测量了疲劳试验过程中合金表面的温度变化;根据疲劳试验过程中温度-应力关系及试样表面温度分布差异,确定疲劳断裂位置和疲劳极限。结果表明:根据合金表面温度变化可以预测疲劳断裂位置;以此法确定的AZ31B镁合金的疲劳极限为107.5MPa,与常规疲劳试验测得的疲劳极限吻合较好;加载初期镁合金升温到一定温度后又下降至室温左右,在断裂前温度快速升高。 High-cycle fatigue property of AZ31B magnesium alloy plats at room temperature were studied,and the temperature changes on the surface of samples was tested by infrared thermographic technology.The fatigue fracture position and fatigue limit of the alloy was confirmed according to the relationship between temperature and stress during fatigue test and the temperature distribution difference on sample surface.The results show that the fatigue fracture position could be predicted according to the change of the temperature on alloy surface,and the fatigue limit tested by the method was 107.5 MPa,the value was agreement with the fatigue limit tested by conventional fatigue test.The temperature of magnesium alloy increased to a certain temperature,and then decreased to room temperature at the earlier stage of loading,and the temperature raised quickly before fracture.
作者 闫志峰 张红霞 王文先 王凯 裴飞飞
机构地区 太原理工大学材料科学与工程学院
出处 《机械工程材料》 CAS CSCD 北大核心 2012年第2期72-75,共4页 Materials For Mechanical Engineering
关键词 AZ31B镁合金 高周疲劳 红外热像 疲劳极限 AZ31B magnesium alloy high-cycle fatigue infrared thermography fatigue limit
分类号 TG405 [金属学及工艺—焊接]
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参考文献8

  • 1刘浩,李飞.红外热像技术在材料疲劳研究中的应用[J].机械管理开发,2008,23(2):79-80. 被引量:3
  • 2LA R G,RISITANO A.Thermographic methodology for rap-id determination of the fatigue limit of materials and mechani-cal components[J].Int J Fatigue,2000,22:65-73.
  • 3王晓钢.基于热像法的寿命预测与疲劳分析[D].大连:大连理工大学.
  • 4LUONG M P.Fatigue limit evaluation of metals using an in-frared thermographic technique[J].Mechanics of Materials,1998,28:155-163.
  • 5LUONG M P.Infrared thermographic scanning of fatigue in metals[J].Nuclear Engineering Design,1995,158:363-368.
  • 6李飞,马赟,刘浩.红外热像技术快速确定0.45C钢疲劳极限的试验方法[J].特殊钢,2008,29(4):66-68. 被引量:1
  • 7FARGIONE G,GERACI A,ROSA G L,et al.Rapid deter-mination of the fatigue curve by the thermographic method[J].International of Fatigue,2002,24:11-19.
  • 8PASTOR M L,BALANDRAUD X,GREDIAC M,et al.Applying infrared thermography to study the heating of2024-T3aluminium specimens under fatigue loading[J].Infrared Physics&Technology,2008,51:505-515.

二级参考文献17

  • 1童小燕,姚磊江,吕胜利.疲劳能量方法研究回顾[J].机械强度,2004,26(z1):216-221. 被引量:24
  • 2姚磊江,童小燕,吕胜利.关于疲劳能量理论若干问题的讨论[J].机械强度,2004,26(z1):278-281. 被引量:10
  • 3刘浩,曾伟,丁桦,赵军.利用红外热像技术快速确定材料疲劳极限[J].力学与实践,2007,29(4):36-39. 被引量:10
  • 4K.L.Reifsnider, R.S.Williams.Determination of Fatigue related Heat Emission in Composite Materials[C].1973 SESA Fall Meeting held in Indianapolis,on October 16-19.
  • 5J.ACharles,F.J.Appl, J.E.Francis.Using the Scanning Infrared Camera in Experimental Fatigue Studies[C].1975 SESA Spring Meeting to be held in Chicago,on May 11-16.
  • 6G. La Rosa,A. Risitano. Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components [J]. International Journal of Fatigue 2000 (22) : 65 -73.
  • 7Minh Phong Luong. Fatigue limit evaluation of metals using an infrared thermographic technique [J]. Mechanics of Materials, 1998(28) : 155-163.
  • 8G,Fargione, A,Geraci, G,La Rosa, etc, Rapid determination of the fatigue curve by thermographic method [J]. International Journal of Fatigue 2002(24):11-19.
  • 9Tchankov D S, Vesselinov K V. Fatigue Life Prediction Under Random Loading using Total Hysteresis Energy. Pressure Vessel Piping, 1998, 75(13) :955
  • 10Colos K,Ellyin F. A Total Strain Energy Density Theory for Cumulative Fatigue Damage. Pressure Vessel Technology, ASME, 1988,110 (1):36

共引文献2

同被引文献76

  • 1童小燕,姚磊江,吕胜利.疲劳能量方法研究回顾[J].机械强度,2004,26(z1):216-221. 被引量:24
  • 2姚磊江,童小燕,吕胜利.关于疲劳能量理论若干问题的讨论[J].机械强度,2004,26(z1):278-281. 被引量:10
  • 3郭杏林,王晓钢.基于锁相热象法的金属疲劳特性评估方法研究[J].机械强度,2010,32(2). 被引量:5
  • 4SureshS著,王中光等译.材料的疲劳(第二版)[M].北京:国防工业出版社,1999.
  • 5Woodward R L, Baxter B J, Pattie S D, et al. Direct measurement of temperature in high speed torsion test[J].Journal of Engineering Materials and Technology (Trans ASME), 1987, 109(2) : 140- 145.
  • 6La Rosa G, Risitano A. Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components [J]. International Journal of Fatigue, 2000, 22 : 65- 73.
  • 7Curti G, La Rosa G, Orlando Metal. Annalisa termite infrared stermicodella temperature limit in prove didactical [C]//in: Proceedings of the 14th Conference on the Italian Society for Stress Analysis, Catania, 1986, 09:211- 220.
  • 8La Rosa G, Risitano A. Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components[J]. International Journal of Fatigue, 2000, 22:65- 73.
  • 9Luong M P. Infrared thermographic scanning of fatigue in metals[J]. Nuclear Engineering and Design, 1995, 158:363-376.
  • 10Luong M P. Fatigue limit evaluation of metals using an infrared thermographic technique[J]. Mechanics of Materials, 1998, 28 :155-163.

引证文献7

二级引证文献28

机械工程材料
2012年 第2期

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