Investigation on short-term burst pressure of plastic pipes reinforced by cross helically wound steel wires 被引量：11

Investigation on short-term burst pressure of plastic pipes reinforced by cross helically wound steel wires

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摘要 Plastic pipes reinforced by cross helically wound steel wires (PSP), which have exhibited excellent mechanical performance, consist of inner polyethylene (PE) layer, winding layer and outer PE layer. The winding layer is composed of two monolayers where steel wires are cross helically wound. An analytical procedure is developed to predict the short-term burst pressure of PSP as the monolayer is assumed to be elastic and orthotropic. The 3D anisotropic elasticity and Maximum Stress Failure Criterion are employed in the formulation of the elasticity problem. Good agreement between the theoretical results and the experimental data shows that the proposed approach can well predict the short-term burst pressure of PSP. Plastic pipes reinforced by cross helically wound steel wires （PSP）, which have exhibited excellent mechanical performance, consist of inner polyethylene （PE） layer, winding layer and outer PE layer. The winding layer is composed of two monolayers where steel wires are cross helically wound. An analytical procedure is developed to predict the short-term burst pressure of PSP as the monolayer is assumed to be elastic and orthotropic. The 3D anisotropic elasticity and Maximum Stress Failure Criterion are employed in the formulation of the elasticity problem. Good agreement between the theoretical results and the experimental data shows that the proposed approach can well predict the short-term burst pressure of PSP.

作者 Jin-yang ZHENG Yong-jian GAO Xiang LI Xiu-feng LIN Yu-bin LU Yan-cong ZHU

机构地区 Institute of Chemical Machinery and Process Equipment

出处《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2008年第5期640-647,共8页 浙江大学学报（英文版）A辑（应用物理与工程）

基金 the New Century Excellent Talents in University, MOE, China (No. NCET-04-0526) the Specialized Research Fund for the Doctoral Program of Higher Education, MOE, China (No. J20050398) the Key Project of Wenzhou (No. G2004034), China

关键词复合物管道合成树脂塑料管道技术性能 Composite pipes, Maximum Stress Criterion, Short-term burst pressure

分类号 TQ32 [化学工程—合成树脂塑料工业]

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参考文献11

1H. Takayanagi,M. Xia,K. Kemmochi.Stiffness and strength of filament-wound fiber-reinforced composite pipes under internal pressure[J].Advanced Composite Materials.2002(2)
2Standard Test Method for Short-time Hydraulic Failure and Resistance to Constant Internal Pressure of the Plastics Pipes for theTransport of Fluids. Chinese Standards GB/T15560-1995 . 1995
3Metallic Materi-als-tensile Testing at Ambient Temperature. Chinese Standards GB/T228-2002 . 2002
4Test Methods of Tensile Properties for Thermoplastic Pipes?Polyolefin Pipes. Chinese Standards GB/T8804.3-2003 . 2003
5Thermoplastics Pipes for the Conveyance of Fluids-resistance to Internal Pressure-test Method. Chinese Standards GB6111-2003 . 2003
6Chou, P.C,Carleone, J,Hsu, C.M.Elastic constants of layered media[].Journal of Composite Materials.1972
7Hwang, T.K.,Hong, C.S.,Kim, C.G.Probabilistic de-formation and strength prediction for a filament wound pressure vessel[].Composites Part A Applied Science and Manufacturing.2003
8Kobayashi, S.,Imai, T.,Wakayama, S.Burst strength evaluation of the FW-CFRP hybrid composite pipes considering plastic deformation of the liner[].Composites Part A Applied Science and Manufacturing.2007
9Kruijer, M.P.,Warnet, L.L.,Akkerman, R.Modellingof the viscoelastic behaviour of steel reinforced thermo-plastic pipes[].Composites Part A: Applied Science andManufacturing.2006
10Lu, Y.B,Ma, X.,Fang, X.B.,Chen, Z.W.,Zheng, J.Y.,Qiu, S.L.The research advances in plastic-matrix metal composite pipe[].Chemical Engineering and Machinery.2005

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1范成磊,方洪渊,万鑫,杨建国,侯贤忠.玻璃钢-不锈钢衬里复合管道应力变形数值模拟[J].宇航材料工艺,2004,34(4):51-54. 被引量：1
2王颖坚,王震鸣.正交铺设层合圆柱曲板的蠕变失稳[J].应用数学和力学,1993,14(4):295-300. 被引量：11
3卢玉斌,马歆,方晓斌,陈志伟,郑津洋,邱水录.塑料基金属复合管研究进展[J].化工机械,2005,32(2):125-129. 被引量：16
4朱彦聪,郑津洋,卢玉斌,林秀锋,李翔,董华章,陈德福.钢丝缠绕增强塑料复合管短期爆破压力试验研究[J].中国塑料,2006,20(5):49-52. 被引量：11
5郑津洋,卢玉斌,李翔,林秀锋,朱彦聪,徐平,孙国有,董华章,陈德福,邵泰清.钢丝缠绕增强塑料复合管力学性能的试验研究[J].中国塑料,2006,20(6):82-88. 被引量：12
6郑津洋,林秀锋,卢玉斌,李翔,朱彦聪,孙国有,徐平,许跃敏,董华章,陈德福,邵泰清.钢丝缠绕增强塑料复合管的应力分析[J].中国塑料,2006,20(7):56-61. 被引量：16
7孙惠兰.玻璃钢管的性能分析[J].水利水电技术,2007,38(5):34-36. 被引量：17
8M.Xia,etal.Analysis of multi-layered filament-wound composite pipes under internal pressure[Z].
9Jin-yang ZHENG,etal.Stress analysis of plastic pipe reinforced by cross helically wound steel wires[Z].
10M.P.Kruijer,etal.Analysis of mechanical properties of a reinforced thermoplastic pipe[J].Composites:part A:applied science and manufacturing,2004,36(2005):291-300.

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9塑料罐头包装市场前景十分美好[J].中国包装,2009,29(2):125-125.
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Journal of Zhejiang University-Science A(Applied Physics & Engineering)

2008年第5期

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Investigation on short-term burst pressure of plastic pipes reinforced by cross helically wound steel wires 被引量：11

参考文献11

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