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不同环境下X65管线钢摩擦塞焊搭接焊接头组织和力学性能分析

徐雅晨1,2,荆洪阳1,2,韩永典1,2,徐连勇1,2

徐雅晨1,2,荆洪阳1,2,韩永典1,2,徐连勇1,2. 不同环境下X65管线钢摩擦塞焊搭接焊接头组织和力学性能分析[J]. 焊接学报, 2017, 38(9): 55-60. DOI: 10.12073/j.hjxb.20170206001
引用本文: 徐雅晨1,2,荆洪阳1,2,韩永典1,2,徐连勇1,2. 不同环境下X65管线钢摩擦塞焊搭接焊接头组织和力学性能分析[J]. 焊接学报, 2017, 38(9): 55-60. DOI: 10.12073/j.hjxb.20170206001

不同环境下X65管线钢摩擦塞焊搭接焊接头组织和力学性能分析

  • 摘要: 为了研究摩擦塞焊搭接接头的金相组织和力学性能,分别在空气中和水下对圆锥形搭接试样进行试验. 结果表明,在空气中焊接时,没有焊接缺陷的产生;在水下焊接时,低的焊接工艺参数导致接头产生未填充和未连接两种焊接缺陷. 接头中焊缝和热影响区组织为上贝氏体,母材为细小的铁素体和珠光体组织. 接头的硬度分布为母材最低,热影响区次之,焊缝最高,水下搭接接头的硬度一般高于空气中接头的硬度. 在空气中焊接时,只有塞孔底部的拉伸试样断裂在结合线处;而在水下焊接时,靠近塞孔底部的两个拉伸试样在结合线处发生断裂.
  • [1] 郑贵斌. 海洋资源开发的战略缺失与科学的战略选择[J]. 环境科学与管理, 2006, 31(8): 6-8.Zheng Guibin. The lack of strategy of the ocean exploitation and scientific strategy selection[J]. Environmental Science and Management, 2006, 31(8): 6-8.[2] Thomas W, Nicholas D, Jones S B,etal. Friction forming: United States, 5469617[P]. 1995-11-28.[3] 陈家庆, 焦向东, 周灿丰, 等. 新型材料成形加工技术——摩擦叠焊[J]. 焊接学报, 2007, 28(9): 108-112.Chen Jiaqing, Jiao Xiangdong, Zhou Canfeng,etal. Friction stitch welding-a new kind of material forming technology[J]. Transactions of the China Welding Institution, 2007, 28(9): 108-112.[4] 陈忠海, 陈家庆, 焦向东, 等. 2024铝合金圆柱形组合的FHPP试验分析[J]. 焊接学报, 2009, 30(11): 37-40.Chen Zhonghai, Chen Jiaqing, Jiao Xiangdong,etal. Experimental analysis on friction hydro pillar processing of cylindrical coupling of 2024 aluminum alloy[J]. Transactions of the China Welding Institution, 2009, 30(11): 37-40.[5] 张宝生, 焦向东, 陈家庆, 等. FHPP单元成形过程初期阶段的热力耦合分析[J]. 焊接学报, 2008, 29(5): 73-80.Zhang Baosheng, Jiao Xiangdong, Chen Jiaqing,etal. Thermal mechanical coupling analysis on initial period of FHPP in friction stitch welding[J]. Transactions of the China Welding Institution, 2008, 29(5): 73-80.[6] Gibson D E, Meyer A, Vennemann O,etal. Engineering applications of friction stitch welding[C]//20th International Conference on Offshore Mechanics and Arctic Engineering, Brazil, 2001: 3-8.[7] Thomas W, Nicholas D. On trial-a new thick plate joining technique[R]. Cambridge, UK, TWI Connect, 1993.[8] Nicholas E D. Friction Hydro Pillar Processing[C]∥11th Annual North American Welding Research Conference, 1995: 7-9.[9] Chludzinski M, Paes M P, Bastian F L,etal. Fracture toughness of friction hydro-pillar processing welding in C-Mn steel[J]. Materials and Design, 2012(33): 340-344.[10] Hattingh D G, Bulbring D L H, Els-Botes A,etal. Process parameter influence on performance of friction taper stud welds in AISI 4140 steel[J]. Materials and Design, 2011(32): 3421-3430.[11] Andrews R E. Mitchell Jc Underwater repair by friction stitch welding[J]. Metals and Materials, 1990, 6(12): 796-797.[12] Meyer A. Friction hydro pillar processing bonding mechanism and properties[D]. Germany: PhD thesis GKSS Forschungszentrum, 2003.[13] DET NORSKE VERTAS AS. DNY-OS-F101 Submarine pipeline systems[S]. Norway: DET NORSKE VERTAS AS, 2013-10.[14] American Society for Testing and Materials (ASTM). E8/E8M-15a Standard Test Methods for Tension Testing of Metallic Materials[S]. USA: ATEM International, 2015-06-18.[15] Xu Y C, Jing H Y, Han Y D,etal. Numerical simulation of the effects of various stud and hole configurations on friction hydro-pillar processing[J]. International Journal of Mechanical Sciences, 2015(90): 44-52.
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  • 收稿日期:  2017-02-05

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