Optimum stacking sequence design of composite materials Part II: Variable stiffness design
A composite laminate may be designed as a permutation of several straight-fiber layers or
as a matrix embracing fibers positioned in curvilinear paths. The former called a constant …
as a matrix embracing fibers positioned in curvilinear paths. The former called a constant …
A review on the design of laminated composite structures: constant and variable stiffness design and topology optimization
The advantages of laminated composite structures make them attractive in industrial
applications. To achieve the maximum advantages of the composite structures, the design …
applications. To achieve the maximum advantages of the composite structures, the design …
Analysis and optimization of a composite leaf spring
MM Shokrieh, D Rezaei - Composite structures, 2003 - Elsevier
A four-leaf steel spring used in the rear suspension system of light vehicles is analyzed
using ANSYS V5. 4 software. The finite element results showing stresses and deflections …
using ANSYS V5. 4 software. The finite element results showing stresses and deflections …
Recent research advances in the dynamic behavior of shells: 1989-2000, Part 1: Laminated composite shells
MS Qatu - Appl. Mech. Rev., 2002 - asmedigitalcollection.asme.org
Laminated composite shells are increasingly being used in various engineering applications
including aerospace, mechanical, marine, and automotive engineering. With the increasing …
including aerospace, mechanical, marine, and automotive engineering. With the increasing …
A parallel finite-element framework for large-scale gradient-based design optimization of high-performance structures
GJ Kennedy, JRRA Martins - Finite Elements in Analysis and Design, 2014 - Elsevier
Structural optimization using gradient-based methods is a powerful design technique that is
well suited for the design of high-performance structures. However, the ever-increasing …
well suited for the design of high-performance structures. However, the ever-increasing …
Buckling topology optimization of laminated multi-material composite shell structures
E Lund - Composite Structures, 2009 - Elsevier
The design problem of maximizing the buckling load factor of laminated multi-material
composite shell structures is investigated using the so-called Discrete Material Optimization …
composite shell structures is investigated using the so-called Discrete Material Optimization …
[图书][B] General anisotropic elasticity
P Vannucci, P Vannucci - 2018 - Springer
This Chapter is an introduction to general anisotropic elasticity, ie to the elasticity of 3D
anisotropic bodies. The main classical topics of the matter are treated in detail: starting from …
anisotropic bodies. The main classical topics of the matter are treated in detail: starting from …
Modelling and design of adaptive composite structures
VMF Correia, MAA Gomes, A Suleman… - Computer Methods in …, 2000 - Elsevier
Recent developments in adaptive composite structures with distributed piezoelectric
actuators and sensors have attracted significant attention in the research community due to …
actuators and sensors have attracted significant attention in the research community due to …
Composite structures optimization using sequential convex programming
M Bruyneel, C Fleury - Advances in engineering software, 2002 - Elsevier
The design of composite structures is considered here. The approximation concepts
approach is used to solve the optimization problem. The convex approximations of the MMA …
approach is used to solve the optimization problem. The convex approximations of the MMA …
A two-level procedure for the global optimum design of composite modular structures—application to the design of an aircraft wing: Part 2: Numerical aspects and …
This work concerns a two-level procedure for the global optimum design of composite
modular structures. The case-study considered is the least weight design of a stiffened wing …
modular structures. The case-study considered is the least weight design of a stiffened wing …