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16MnR钢缺口试样解理断裂行为研究 被引量:1

CLEAVAGE FRACTURE BEHAVIOR IN NOTCHED SPECIMENS OF 16MNR STEEL
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摘要 摘要研究了低合金热轧钢16MnR缺口试样在-196℃和-130℃的解理断裂机理.拉伸试验、单、双缺口四点弯曲实验、断口形貌观察以及有限元分析结果表明,缺口试样发生解理断裂时均起裂于夹杂物粒子,一种位于缺口根部前端(IC型),另一种位于距缺口根部较远的条形裂纹前端(SIC型);且随温度升高,起裂源的类型从-196℃下的IC型转变为-130℃下的SIC型.微裂纹均形核于夹杂物,最终的断裂由铁素体晶粒尺寸的微裂纹扩展控制.缺口试样IC型解理断裂遵循裂纹形核条件ε_p≥ε_(ps)和裂纹扩展条件δ_(yy)≥δ_f,而SIC型解理断裂条件则演化为ε_p+ε_(ps)≥ε_(pc)和δ_(yy)+δ_(yys)≥δ_f. The cleavage initiation of notched specimens of a low alloy hot rolled steel (16 MnR) with carbides and inclusions at -196℃ and -130℃ is studied in this paper. The results of tensile tests, four point bending tests of single and double notched specimens, microscopic observations and finite element method calculations show that two types of cleavage initiation sites in notched specimens can be identified, one is related to the inclusions ahead of the notch root (IC type) and the others related to the inclusions located ahead of string cracks far from the notch root (SIC type). The types of initiation sites are influenced strongly by temperature, changing from IC type at -196℃ to SIC type at -130℃. In both IC and SIC initiation mechanisms, the crack nucleation is induced by inclusions and the final fracture is controlled by the propagation of a ferrite grain-sized crack into the matrix grain. The cleavage fracture of IC initiation type in notched specimens can be described by a dual-criterion model, i.e. a critical plastic strain εP≥εpc for initiating a crack nucleus and a critical tensile stress σyy≥σf for its propagation. While for SIC initiation type, the dual-criterion model is to be modified with the expression of εp+εps≥εpc and σyy+σyys≥σf
作者 刘彦国 李震 孙先明
机构地区 浙江机电职业技术学院 大连理工大学机械工程学院 武汉材料保护研究所
出处 《力学与实践》 CSCD 北大核心 2011年第5期21-27,32,共8页 Mechanics in Engineering
基金 国家自然科学基金(50432020) 浙江省自然科学基金(Y107428)资助项目
关键词 16MNR钢 缺口试样 夹杂物粒子 解理断裂 16MnR steel, notched specimens, inclusions, cleavage fracture
分类号 TG111.91 [金属学及工艺—物理冶金]
  • 相关文献

参考文献14

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二级参考文献21

  • 1冯佃臣,宋义全,李涛,李晓刚.16Mn钢在内蒙古五地区土壤腐蚀的研究[J].内蒙古科技大学学报,2009,28(1):50-53. 被引量:4
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共引文献12

同被引文献9

  • 1STROH A N. The formation of cracks as a result of plastic flow[J]. Proceedings of the Royal Society: A, 1954,223: 404- 414.
  • 2COTTRELL A H. Theory of brittle fracture in steel and similar metals[J]. Trans Metallurgical Soc AIME, 1958,212 :192- 203.
  • 3SMITH E. Proceedings of the conference on the physical basis of fracture[J]. Physics and Physics Society, 1966,30 : 36-46.
  • 4RITCHIE R O, KNOTT J F, RICE J R. On the relationship between critical tensile stress and fracture toughness in mild steel[J]. Physics of Solids, 1973,21(3) : 395-410.
  • 5CURRY D A,KNOTT J F. Effect of microstructure on cleav- age fracture stress in steel[J]. Met Sci, 1977,15: 511-514.
  • 6BOWEN P, DRUCE S G, KNOTT J F. Micromechanical mod- elling of fracture toughness[J]. Acta Metall, 1987, 35: 1735- 746.
  • 7WANG G Z,CHEN J H. Cleavage fracture criterion of low al- loy steel and weld metal in notched specimens[J]. Inter J Fracture, 1998,89 : 269-284.
  • 8WANG G Z, LIU Y G, CHEN J H. Investigation of cleavage fracture initiation in notched specimen of a C-Mn steel with carbides and inclusions[J]. Mater Sci Eng, 2004, A369 : 181- 185.
  • 9王国珍,王玉良,轩福贞,涂善东,王正东.加载速率、缺口几何和加载方式对16MnR钢解理断裂行为的影响[J].金属学报,2009,45(7):866-872. 被引量:8

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力学与实践
2011年 第5期

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