结构钢开孔板断裂试验的数值模拟
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摘要
目前很多文献都是不加证明的将开裂因子RI作为破坏准则用于连接分析中,即认为当计算中的开裂因子RI值超过了某给定值,便认为该处开裂,此时便停止计算。但是RI值是否是恒定的值,这需要去验证。因此,为了验证RI值是否是恒定的值,对开孔矩形板试件进行了单向拉伸试验,并进行了数值模拟。发现数值模拟结果与试验曲线吻合较好,说明数值模拟的应力场可以用于理论分析。随后,分析了数值模拟的应力场,发现用开裂因子RI可以定性地预测金属材料的初始开裂位置及扩展,但是,RI值有很大波动。其原因可能是试验所观察到的裂纹并不是第一条微观裂纹,或是RI值并不是恒定的,是随条件在发生变化。
There were many literature didn't probative rupture index RI if it was right,they used it by way of destroy rule.They thought when calculational RI exceeded a certain fixed value,there were craze,we could stop calculation.But if RI was fixedness,we need do validate.For validate rupture index RI,we article did fracture tests on rectangle plates with circle hole.We also did numerical simulation.By contrasting the results of experiment and numerical simulation,we found that numerical simulation results fit preferably with experiment carves.So,the stress field of numerical simulation could be used theory analysis.After using rupture index RI for study constructional steel fracture,we found that RI had some undulation for different specimens.The reasons may be that recorded crack isn't the first one in tests,or may be that RI exist some problem in forecasting constructional steel fracture.These problems must be researched further.
There were many literature didn't probative rupture index RI if it was right,they used it by way of destroy rule.They thought when calculational RI exceeded a certain fixed value,there were craze,we could stop calculation.But if RI was fixedness,we need do validate.For validate rupture index RI,we article did fracture tests on rectangle plates with circle hole.We also did numerical simulation.By contrasting the results of experiment and numerical simulation,we found that numerical simulation results fit preferably with experiment carves.So,the stress field of numerical simulation could be used theory analysis.After using rupture index RI for study constructional steel fracture,we found that RI had some undulation for different specimens.The reasons may be that recorded crack isn't the first one in tests,or may be that RI exist some problem in forecasting constructional steel fracture.These problems must be researched further.
引文
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[2]Popover E P.Design of steel connections before and after 1994Northridge Earthquake[J].Engineering Structures,1998,20:1030-1038.
[3]Hancock J W,Mackenzie AC.On the mechanisms of ductile fail-ure in high-strength steels subjected to multi-axial stress-states[J].Journal Mech.Phys[J].Solids,1976,24:147-169.
[4]BAO Ying-bin.Dependence of dependence of Fracture Ductilityon Thickness[J].Thin-Walled Structures,2004,42:1211-1230.
[5]Lu Le-Wu,et al.Critical issues in achieving ductile behavior ofwelded moment connections[J].Journal of Constructional SteelResearch,2000,55:325-341.
[6]姚国春,霍立兴,张玉风,等.焊接钢结构梁柱节点地震下的断裂行为研究[J].钢结构,2000,15(50):25-27.
[7]赵人伟,石永久.钢结构节点脆性破坏分析[J].工程力学(增刊),1999:32-37.
[8]郭秉山,顾强,李养成.钢框架梁柱腹板连接梁翼缘对接焊缝的破坏机理[J].西安科技大学学报,2004,24(4):417-421.
[9]闫月梅,苏云鹏,郭秉山.梁柱端板连接受力行为的有限元模拟[J].建筑技术开发,2003,30(6):7-9.
[10]王万祯,顾强.钢框架梁柱栓焊节点的有限元分析[J].建筑结构,2002,32(9):7-10.
[11]修金捷.钢框架梁柱腹板刚性连接的节点性能分析[D].西安:西安科技大学,2003.
[12]王万祯,顾强,王秀丽.节点域对钢框架梁柱连接受力性能的影响[J].建筑结构,2005,12(35):56-58.
[13]陈绍藩,顾强.钢结构(上册)[M].北京:中国建筑工业出版社,2003:301-316.
[14]陈绍藩.钢结构设计原理[M].北京:科学出版社,1998:29-44.
[15]GB50017-2003钢结构设计规范[S].北京:中国计划出版社,2003:63-67.
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