Multi-Functional Optimization of Sandwich Panel with Bio-Inspired Lightweight Structure Cores

Zhen Yu Lu; Ce Guo; Chun Sheng Zhu; Zhen Dong Dai

doi:10.4028/www.scientific.net/AMM.461.73

Paper Titles

Characteristics on Stability of a Hydraulic-Driven Bionic Structure Based on Undulating Rhythm Motion
p.44

Design and Experiments of a Bionic Hook-Shape Subsoiler
p.50

Design of the Lightweight Structure and its Mechanical Properties
p.57

Effects of Bionic Geometric Structure Press Rollers on Reducing Rolling Resistance and Adhesion against Soil
p.63

Multi-Functional Optimization of Sandwich Panel with Bio-Inspired Lightweight Structure Cores
p.73

Structural Integrity Analysis of Hole Shape and Location in Lotus Root
p.81

Study on Design of Metallic Sandwish Structure and its Mechanical and Thermal Properties
p.85

The Research on Noise Reduction Device Based on Micropore Structure of Honeycomb
p.95

Trial Manufacture of Bionic Honeycomb Plates and their Bending Properties
p.101

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 461Multi-Functional Optimization of Sandwich Panel...

Multi-Functional Optimization of Sandwich Panel with Bio-Inspired Lightweight Structure Cores

Abstract:

The overall heat dissipation coefficients of the sandwich panels with bio-inspired lightweight composite cores were analyzed by using the effective medium model, Then the effective heat dissipation objective function of the panel was constructed. The author took advantage of the Latin hypercube sampling method to sample the experimental data and then to calculate it. On this basis, the static and dynamic mechanical objective functions of the panel were obtained by using the response surface method. Finally, the overall objective function was constructed and solved to achieve the target of multi-functional optimization.

You might also be interested in these eBooks

Biomimetic Approaches in Engineering Practice

View Preview

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 461)

Pages:

73-80

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.461.73

Citation:

Cite this paper

Online since:

November 2013

Authors:

Zhen Yu Lu, Ce Guo, Chun Sheng Zhu, Zhen Dong Dai

Keywords:

Bio-Inspired Structure, Effective Medium Model, Heat Dissipation, Multi-Functional Optimization, Response Surface Method (RSM)

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Evans A. G, Hutchinson J. W, Fleck N. A, Ashby M. F, Wadley H.N. G, The topological design of multifunctional cellular metals, J. Prog Mater Sci. 46 (2001) 309-327.

DOI: 10.1016/s0079-6425(00)00016-5

Google Scholar

[2] Gu S, Lu TJ, Rvans A . G, On the design of two-dimensional cellular metals for combined heat dissipation and structural load capacity, J. Inter J Heat and Mass transfer. 44 (2001) 2163−2175.

DOI: 10.1016/s0017-9310(00)00234-9

Google Scholar

[3] A J Wang, D L McDowell, In-Plane stiffness and Yield Strength of Periodic Metal Honeycombs, J. Journal of Engineering Materials and Technology. 126 (2004) 137−156.

DOI: 10.1115/1.1646165

Google Scholar

[4] Wang Bo, Cheng Gengdong, Design of cellular structures for optimum efficiency of heat dissipation, J. Structure and Multidisciplinary Optimization. 30 (2005) 447−458.

DOI: 10.1007/s00158-005-0542-0

Google Scholar

[5] Wang Bo, Wang Bin, Cheng Gengdong, Multifunctional design of sandwich panels with Kagome-like cores, J. Acta Materiae compositae sinica. 24(3) (2007) 109−115.

Google Scholar

[6] Wang Bo, Optimum design of multi-functional orthotropic honeycomb materials, J. Acta Materiae compositae sinica. 25(3) (2008) 202−209.

Google Scholar

[7] Liu Shutian, Liu Peng, Zhang Yongcun, Wang Bo, Heat dissipation analysis and design of two-dimensional cellular materials, J. Acta Materiae compositae sinica. 25(1) (2008) 147−152.

Google Scholar

[8] Yang Zhixian, Dai Zhendong, Progress in bionic research on biomaterials, J. Acta Materiae compositae sinica. 25 (2) (2008) 1−9.

Google Scholar

[9] Yang Z. X, Dai Z, D, Guo C, Mechanical properties of the exocuticle and sections of Cybister, J. Chinese Science Bulletin. 55 (8) (2010) 771−776.

DOI: 10.1007/s11434-009-0363-4

Google Scholar

[10] CHEN Jinxiang, NI Qingqing, LI Qing, XU Yinglian, Biomimetic light weight composite structure with honeycomb-trabecula, J. Acta Materiae compositae sinica. 22 (2) (2005) 103−108.

Google Scholar

[11] GUO Ce, SONG WenWei, DAI ZhenDong, Structure design by beetle elytra and its mechanical properties, J. Chinese Science Bulletin. 57 (8) (2012) 941−947.

DOI: 10.1007/s11434-011-4956-3

Google Scholar

[12] Shah R. K, London A . L, Laminar flow forced convection in ducts , M, Advances in heat transfer, Academic Press, New York, 1978, 405−410.

DOI: 10.1016/b978-0-12-020051-1.50001-2

Google Scholar