ANALYSIS OF COMPOSITE LAMINATE BEAMS USING COUPLING CROSS-SECTION FINITE ELEMENT METHOD

doi:10.1007/s10483-006-1213-z

Applied Mathematics and Mechanics (English Edition) ›› 2006, Vol. 27 ›› Issue (12): 1709-1718 .doi: https://doi.org/10.1007/s10483-006-1213-z

• Articles • Previous Articles Next Articles

ANALYSIS OF COMPOSITE LAMINATE BEAMS USING COUPLING CROSS-SECTION FINITE ELEMENT METHOD

JIANG Wen-guang, John L. Henshall

1. School of Mechanical Engineering, Yanshan University, Qinhuangdao 066004, Hebei Province, P. R. China;
2. Department of Aerospace Engineering, University of Bristol, BS8 1TR, UK;
3. Department of Mechanical Engineering and Manufacturing Engineering, Nottingham Trent University, Nottingham, NG1 4BU, UK

Received:2005-07-01 Revised:2006-08-08 Online:2006-12-18 Published:2006-12-18
Contact: JIANG Wen-guang

Abstract

Abstract: Beams and plates manufactured from laminates of composite materials have distinct advantages in a significant number of applications. However, the anisotropy arising from these materials adds a significant degree of complexity, and thus time, to the stress and deformation analyses of such components, even using numerical approaches such as finite elements. The analysis of composite laminate beams subjected to uniform
extension, bending, and/or twisting loads was performed by a novel implementation of the usual finite element method. Due to the symmetric features of the deformations, only a thin slice of the beam to be analysed needs to be modelled. Conventional threedimensional solid finite elements were used for the structural discretization. The accurate deformation relationships were formulated and implemented through the coupling of nodal translational degrees of freedom in the numerical analysis. A sample solution for a rectangular composite laminate beam is presented to show the validity and accuracy of the proposed method.

Key words: null

2010 MSC Number:

null

JIANG Wen-guang;John L. Henshall. ANALYSIS OF COMPOSITE LAMINATE BEAMS USING COUPLING CROSS-SECTION FINITE ELEMENT METHOD. Applied Mathematics and Mechanics (English Edition), 2006, 27(12): 1709-1718 .

TrendMD

[1]	Luyu SHEN, Changgen LU. Local receptivity in non-parallel boundary layer [J]. Applied Mathematics and Mechanics (English Edition), 2016, 37(7): 929-940.
[2]	Luyu SHEN, Changgen LU. Boundary-layer receptivity under interaction of free-stream turbulence and localized wall roughness [J]. Applied Mathematics and Mechanics (English Edition), 2016, 37(3): 349-360.
[3]	M. AREFI. Surface effect and non-local elasticity in wave propagation of functionally graded piezoelectric nano-rod excited to applied voltage [J]. Applied Mathematics and Mechanics (English Edition), 2016, 37(3): 289-302.
[4]	Zailin YANG, Baoping HEI, Yao WANG. Scattering by circular cavity in radially inhomogeneous medium with wave velocity variation [J]. Applied Mathematics and Mechanics (English Edition), 2015, 36(5): 599-608.
[5]	S. A. SHEHZAD, T. HAYAT, A. ALSAEDI, B. AHMAD. Effects of thermophoresis and thermal radiation in mixed convection three-dimensional flow of Jeffrey fluid [J]. Applied Mathematics and Mechanics (English Edition), 2015, 36(5): 655-668.
[6]	T. HAYAT, M. IMTIAZ, A. ALSAEDI. Partial slip effects in flow over nonlinear stretching surface [J]. Applied Mathematics and Mechanics (English Edition), 2015, 36(11): 1513-1526.
[7]	Xiao-jian XU;Zi-chen DENG. Variational principles for buckling and vibration of MWCNTs modeled by strain gradient theory [J]. Applied Mathematics and Mechanics (English Edition), 2014, 35(9): 1115-1128.
[8]	T. HAYAT;S. ASAD;A. ALSAEDI. Flow of variable thermal conductivity fluid due to inclined stretching cylinder with viscous dissipation and thermal radiation [J]. Applied Mathematics and Mechanics (English Edition), 2014, 35(6): 717-728.
[9]	Si YUAN;Yan DU;Qin-yan XING;Kang-sheng YE. Self-adaptive one-dimensional nonlinear finite element method based on element energy projection method [J]. Applied Mathematics and Mechanics (English Edition), 2014, 35(10): 1223-1232.
[10]	T. HAYAT; M.MUSTAFA; Z.IQBAL; A.ALSAEDI. Stagnation-point flow of couple stress fluid with melting heat transfer [J]. Applied Mathematics and Mechanics (English Edition), 2013, 34(2): 167-176.
[11]	R. ANSARI;S. ROUHI;M. ARYAYI. Nanoscale finite element models for vibrations of single-walled carbon nanotubes: atomistic versus continuum [J]. Applied Mathematics and Mechanics (English Edition), 2013, 34(10): 1187-1200.
[12]	DING Xie-ping, LEE Chin-san, YAO Jen-chih. Generalized constrained multiobjective games in locally FC-uniform spaces [J]. Applied Mathematics and Mechanics (English Edition), 2008, 29(3): 301-309 .
[13]	ZHU Yong-an, WANG Fan, LIU Ren-huai. Thermal buckling of axisymmetrically laminated cylindrically orthotropic shallow spherical shells including transverse shear [J]. Applied Mathematics and Mechanics (English Edition), 2008, 29(3): 291-300 .
[14]	JIANG Xiao-hai, FAN Bao-chun, LI Hong-zhi. Numerical investigations on dynamic process of muzzle flow [J]. Applied Mathematics and Mechanics (English Edition), 2008, 29(3): 351-360 .
[15]	WU Jiang-hao, SUN Mao. Control of flight forces and moments by flapping wings of model bumblebee [J]. Applied Mathematics and Mechanics (English Edition), 2008, 29(3): 333-350 .

ANALYSIS OF COMPOSITE LAMINATE BEAMS USING COUPLING CROSS-SECTION FINITE ELEMENT METHOD

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments