Thermoelastic Analysis of Non-uniform Pressurized Functionally Graded Cylinder with Variable Thickness Using First Order Shear Deformation Theory(FSDT) and Perturbation Method 被引量：1

Thermoelastic Analysis of Non-uniform Pressurized Functionally Graded Cylinder with Variable Thickness Using First Order Shear Deformation Theory(FSDT) and Perturbation Method

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摘要 Recently application of functionally graded materials（FGMs） have attracted a great deal of interest. These materials are composed of various materials with different micro-structures which can vary spatially in FGMs. Such composites with varying thickness and non-uniform pressure can be used in the aerospace engineering. Therefore, analysis of such composite is of high importance in engineering problems. Thermoelastic analysis of functionally graded cylinder with variable thickness under non-uniform pressure is considered. First order shear deformation theory and total potential energy approach is applied to obtain the governing equations of non-homogeneous cylinder. Considering the inner and outer solutions, perturbation series are applied to solve the governing equations. Outer solution for out of boundaries and more sensitive variable in inner solution at the boundaries are considered. Combining of inner and outer solution for near and far points from boundaries leads to high accurate displacement field distribution. The main aim of this paper is to show the capability of matched asymptotic solution for different non-homogeneous cylinders with different shapes and different non-uniform pressures. The results can be used to design the optimum thickness of the cylinder and also some properties such as high temperature residence by applying non-homogeneous material. Recently application of functionally graded materials（FGMs） have attracted a great deal of interest. These materials are composed of various materials with different micro-structures which can vary spatially in FGMs. Such composites with varying thickness and non-uniform pressure can be used in the aerospace engineering. Therefore, analysis of such composite is of high importance in engineering problems. Thermoelastic analysis of functionally graded cylinder with variable thickness under non-uniform pressure is considered. First order shear deformation theory and total potential energy approach is applied to obtain the governing equations of non-homogeneous cylinder. Considering the inner and outer solutions, perturbation series are applied to solve the governing equations. Outer solution for out of boundaries and more sensitive variable in inner solution at the boundaries are considered. Combining of inner and outer solution for near and far points from boundaries leads to high accurate displacement field distribution. The main aim of this paper is to show the capability of matched asymptotic solution for different non-homogeneous cylinders with different shapes and different non-uniform pressures. The results can be used to design the optimum thickness of the cylinder and also some properties such as high temperature residence by applying non-homogeneous material.

作者 KHOSHGOFTAR M J MIRZAALI M J RAHIMI G H

机构地区 Faculty of Mechanical Engineering Department of Mechanical Engineering Department of Mechanical Engineering

出处《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2015年第6期1149-1156,共8页 中国机械工程学报（英文版）

关键词 non-homogenous cylinder First order Shear Deformation Theory matched asymptotic method perturbation method functionally graded material non-homogenous cylinder,First order Shear Deformation Theory,matched asymptotic method,perturbation method,functionally graded material

分类号 TB33 [一般工业技术—材料科学与工程] TB34 [一般工业技术—材料科学与工程]

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参考文献21

1NZENGWA R, SIMO B H T. A two-dimensional model for linear elastic thick shells[J]. International Journal of Solids and Structures, 1999, 36(34): 5141-5176.
2TUTUNCU N, OZTURK M. Exact solutions for stresses in functionally graded pressure vessels[J]. Composites Part B: Engineering, 2001, 32(8): 683-686.
3TUTUNCU N. Stresses in thick-walled FGM cylinders with exponentially-varying properties[J]. Engineering Structures, 2007, 29(9): 2032-2035.
4AREFI M, RAHIMI G H. Comprehensive thermoelastic analysis of a functionally graded cylinder with different boundary conditions under internal pressure using first order shear deformation theory[J]. Mechanika, 2012, 18(1): 5-13.
5AREFI M, RAHIMI G H, KHOSHGOFTAR M J. Exact solution of a thick walled functionally graded pizeoelectric cylinder under mechanical, thermal and electrical loads in the magnetic field[J]. Smart Structures and Systems, 2012, 9(5): 427-439.
6AREFI M, RAHIMI G H, KHOSHGOFTAR M J. Optimized design of a cylinder under mechanical, magnetic and thermal loads as a sensor or actuator using a functionally graded piezomagnetic material[J]. International Journal of Physical Sciences, 2011, 6(27): 6315-6322.
7KHOSHGOFTAR M J, GHORBANPOUR ARANI A, AREFI M. Thermoelastic analysis of a thick walled cylinder made of functionally graded piezoelectric material[J]. Smart Materials and Structures, 2009, 18(11): 115007.
8RAHIMI G H, AREFI A, KHOSHGOFTAR M J. Electro elastic analysis of a pressurized thick-walled functionally graded piezoelectric cylinder using the first order shear deformation theory and energy method[J]. Mechanika, 2012, 18(3): 292-300.
9ZAMANI NEJAD M, RAHIMI G H, GHANNAD M. Set of field equations for thick shell of revolution made of functionally graded materials in curvilinear coordinate system[J], Mechanika, 2009, 77(3): 18-26.
10LIEW K M, KITIPORNCHAI S, ZHANG X Z, et al. Analysis of the thermal stress behaviour of functionally graded hollow circular cylinders[J]. International Journal of Solids and Structures, 2003, 40(10): 2355-2380.

二级参考文献12

1Liu, X., Wang, Q., and Quek, S. T. Analytical solution for free vibration of piezoelectric coupled moderately thick circular plates. International Journal of Solids and Structures, 39, 2129-2151 (2002).
2Hou, P. F. and Leung, A. Y. T. The transient responses of magneto-electro-elastic hollow cylinders. Smart Materials and Structures, 13(4), 762-776 (2004).
3Kollias, A. T. and Avaritsiotis, J. N. A study on the performance of bending mode piezoelectric accelerometers. Sensors and Actuators A: Physical, 121, 434-442 (2005).
4Dai, H. L. and Wang, X. Stress wave propagation in piezoelectric fiber reinforced laminated composites subjected to thermal shock. Composite Structures, 74, 51-62 (2006).
5Pietrzakowski, M. Piezoelectric control of composite plate vibration: effect of electric potential distribution. Computers and Structures, 86, 948-954 (2008).
6Babaei, M. H. and Chen, Z. T. Exact solutions for radially polarized and magnetized magneto-electroelastic rotating cylinders. Smart Materials and Structures, 17(2), 025035 (2008).
7Khoshgoftar, M. J., Ghorbanpour, A. A., and Arefi, M. Thermoelastic analysis of a thick walled cylinder made of functionally graded piezoelectric material. Smart Materials and Structures, 18(11), 115007 (2009).
8Jabbari, M., Sohrabpour, S., and Eslami, M. R. Mechanical and thermal stresses in a functionally graded hollow cylinder due to radially symmetric loads. International Journal of Pressure Vessels and Piping, 79, 493-497 (2002).
9Frank, P. I. Introduction to Heat Transfer, John Wiley and Sons, New Jersey, 79-86 (1996).
10Kang, J. H. Field equations, equations of motion, and energy functionals for thick shells of revolution with arbitrary curvature and variable thickness from a three-dimensional theory. Acta Mechanica, 188, 21-37 (2007).

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1A.ATRIAN,J.JAFARI FESHARAKI,S.H.NOURBAKHSH.Thermo-electromechanical behavior of functionally graded piezoelectric hollow cylinder under non-axisymmetric loads[J].Applied Mathematics and Mechanics(English Edition),2015,36(7):939-954.
2M.AREFI,R.KARROUBI,M.IRANI-RAHAGHI.Free vibration analysis of functionally graded laminated sandwich cylindrical shells integrated with piezoelectric layer[J].Applied Mathematics and Mechanics(English Edition),2016,37(7):821-834. 被引量：7
3Zilong GUO,Qiao NI,Wei CHEN,Huliang DAI,Lin WANG.Dynamic analysis and regulation of the flexible pipe conveying fluid with a hard-magnetic soft segment[J].Applied Mathematics and Mechanics(English Edition),2022,43(9):1415-1430. 被引量：1

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1H. L. Dai Y.M. Fu J.H. Yang.Electromagnetoelastic behaviors of functionally graded piezoelectric solid cylinder and sphere[J].Acta Mechanica Sinica,2007,23(1):55-63. 被引量：10

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1彭旭龙,李显方.Thermoelastic analysis of functionally graded annulus with arbitrary gradient[J].Applied Mathematics and Mechanics(English Edition),2009,30(10):1211-1220.
2李海波.结构健康监测及其应用[J].强度与环境,2008,35(3):34-34. 被引量：3
3岑松,龙驭球,姚振汉.基于一阶剪切变形理论的新型复合材料层合板单元[J].工程力学,2002,19(1):1-8. 被引量：9
4张奇.土垫层的防护作用[J].爆炸与冲击,1995,15(2):185-189. 被引量：4
5龙志飞,杨燕艳,岑松.三角形层合板单元及应力解的杂交化后处理[J].中国矿业大学学报,2006,35(6):792-798.
6王海琴.埋地热油管道变厚度保温层的设计[J].油气储运,2002,21(1):17-19. 被引量：6
7Young-Wann Kim.Effect of partial elastic foundation on free vibration of fluid-filled functionally graded cylindrical shells[J].Acta Mechanica Sinica,2015,31(6):920-930. 被引量：2
8Aref Afsharfard,Anooshiravan Farshidianfar.Finding the buckling load of non-uniform columns using the iteration perturbation method[J].Theoretical & Applied Mechanics Letters,2014,4(4):59-64.
9M.Ozakca N.TaysI F.Kolcu 周昊圣.可变厚度的圆形和环形弹性板的屈曲分析和形状优化——I有限元方法[J].建筑钢结构进展,2003,5(2):62-62.
10严丽蓓.水平定向钻穿越中的泥浆问题[J].非开挖技术,2010(1):79-80. 被引量：3

Chinese Journal of Mechanical Engineering

2015年第6期

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