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工程设计学报
Chinese Journal of Engineering Design  2013, Vol. 20 Issue (3): 236-242    DOI:
    
Finite element analysis of the expansion of the twinning induced plasticity steel solid expandable tube
 ZHI  An, LI  Chun-Fu
School of Materials and Engineering, Southwest Petroleum University, Chengdu 610500, China
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Abstract  As an advanced steel materials with high strength and toughness, the finite element analysis of expansion mechanics of the twinning induced plasticity(TWIP) steel expandable tube had not yet reported in the literature. In order to obtain the expansion process and the mechanical status after expansion of TWIP steel expandable tube, the theoretical expansion limit of different thickness of TWIP steel expandable casing and the influence of thickness to expansion, a mechanical model to analyze expandable casings expanding processes was built based on ANSYS finite element analysis technology. TWIP steel was considered to be a model object of expandable casing, and the expansion process of different thickness of 219075 mm solid expandable tube was analyzed at various expansion rates at 25 ℃. The result shows that thickness does not have remarkable effect on the distribution of the maximum equivalent stress of the casing before and after expansion. The residual stress of different thickness of expandable casing after expansion along the axial distribution is basically same. The peak value of residual stress increases slightly with the increasing of thickness. The theoretical expansion limit of TWIP steel is 5% to 10% larger than traditional steel for expandable tube while thickness is the same. Conclusion can be drawn fro〖JP2〗m the analysis results is that TWIP steel for expandable tube with large expansion rate has more advantages over traditional steel (J55 steel, etc) for expandable tube. Therefore, it is important to apply the finite element analysis of expansion mechanics to TWIP steel expandable tube.

Key wordsTWIP steel      solid expandable tube      thickness      finite element analysis      residual stress     
Published: 28 June 2013
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ZHI An
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Cite this article:

ZHI An, LI Chun-Fu. Finite element analysis of the expansion of the twinning induced plasticity steel solid expandable tube. Chinese Journal of Engineering Design, 2013, 20(3): 236-242.

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https://www.zjujournals.com/gcsjxb/     OR     https://www.zjujournals.com/gcsjxb/Y2013/V20/I3/236


孪生诱发塑性钢实体膨胀管膨胀有限元分析

孪生诱发塑性(twinning induced plasticity,TWIP)钢作为一种具有高强韧性的先进钢铁材料,鲜有文献报道其用于膨胀管的膨胀力学有限元分析.为了获得TWIP钢膨胀管的膨胀过程及膨胀后的力学状态、不同壁厚TWIP钢膨胀套管的理论膨胀极限及壁厚对其膨胀的影响,采用ANSYS有限元分析技术建立了可膨胀套管膨胀过程的力学模型,以TWIP钢作为套管的膨胀模型对象,对不同壁厚的 219.075 mm实体膨胀套管在25 ℃时的不同膨胀率的膨胀过程进行了有限元分析.分析结果表明:壁厚对膨胀前后套管最大等效应力分布的影响不大;不同壁厚膨胀套管膨胀后残余应力沿轴向的分布规律基本一致,残余应力的峰值随膨胀套管壁厚的增加而略有上升;相同壁厚的TWIP钢理论膨胀极限较传统膨胀管用钢大5%~10%.从分析结果可以得出,大膨胀率膨胀管用TWIP钢较其他传统膨胀管用钢(J55钢等)具有较大的优势,因此对TWIP钢膨胀管力学有限元分析具有重要的意义.

关键词: TWIP钢,  实体膨胀管,  壁厚,  有限元分析,  残余应力 
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