Mechanics of composite materials
Autar Kaw
- 02 Nov 2005
TL;DR: In this article, the authors presented a comprehensive analysis of the four Elastic Moduli coefficients of a Unidirectional Lamina Coefficients of Thermal Expansion and Moisture Expansion.
read more
Abstract: INTRODUCTION TO COMPOSITE MATERIALS Chapter Objectives Introduction Classi?cation Recycling Fiber-Reinforced Composites Mechanics Terminology Summary Key Terms Exercise Set References MACROMECHANICAL ANALYSIS OF A LAMINA Chapter Objectives Introduction Review of De?nitions Hooke's Law for Different Types of Materials Hooke's Law for a Two-Dimensional Unidirectional Lamina Hooke's Law for a Two-Dimensional Angle Lamina Engineering Constants of an Angle Lamina Invariant Form of Stiffness and Compliance Matrices for an Angle Lamina Strength Failure Theories of an Angle Lamina Hygrothermal Stresses and Strains in a Lamina Summary Key Terms Exercise Set References APPENDIX A: MATRIX ALGEBRA Key Terms APPENDIX B: TRANSFORMATION OF STRESSES AND STRAINS Transformation of Stress Transformation of Strains Key Terms MICROMECHANICAL ANALYSIS OF A LAMINA Chapter Objectives Introduction Volume and Mass Fractions, Density, and Void Content Evaluation of the Four Elastic Moduli Ultimate Strengths of a Unidirectional Lamina Coefficients of Thermal Expansion Coefficients of Moisture Expansion Summary Key Terms Exercise Set References MACROMECHANICAL ANALYSIS OF LAMINATES Chapter Objectives Introduction Laminate Code Stress-Strain Relations for a Laminate In-Plane and Flexural Modulus of a Laminate Hygrothermal Effects in a Laminate Summary Key Terms Exercise Set References FAILURE, ANALYSIS, AND DESIGN OF LAMINATES Chapter Objectives Introduction Special Cases of Laminates Failure Criterion for a Laminate Design of a Laminated Composite Other Mechanical Design Issues Summary Key Terms Exercise Set References BENDING OF BEAMS Chapter Objectives Introduction Symmetric Beams Nonsymmetric Beams Summary Key Terms Exercise Set References INDEX
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Modeling method of concrete material at mesoscale with refined aggregate shapes based on image recognition
TL;DR: A refined aggregate modeling method is proposed using statistical rules based on image recognition to refine the aggregate model to a three-level framework based on the particle size, aspect ratio, and surface texture.
37
Microstructural Evolution and Growth Behavior of In Situ TiB Whisker Array in ZrB2–SiC/Ti6Al4V Brazing Joints
TL;DR: In this article, an in situ short fiber reinforced brazing technique by taking advantage of reaction between ZrB2 and Ti has been developed for joining Zb2-SiC ceramic and Ti6Al4V alloy.
36
Compression behavior of laminated composites subjected to damage induced by low velocity impact and drilling
TL;DR: In this paper, the authors investigated the effect of two common damage types; impact and drilling on compression strength of woven carbon fiber reinforced epoxy composites and found that impact damage has more deleterious effect on the compression strength than drilling.
36
Application of artificial neural networks for quantitative damage detection in unidirectional composite structures based on Lamb waves
TL;DR: A reasonable agreement is achieved between the pre-assigned damage lengths and widths and the corresponding predictions provided by the artificial neural network model, showing the great potential of using the proposed artificial neuralnetwork model for quantitatively detecting the damage size in fiber-reinforced composite structures.
36
Stiffening Mechanisms of Asphalt–Aggregate Mixtures: From Binder to Mixture
Minkyum Kim,William G. Buttlar +1 more
TL;DR: In this article, a unique database of the complex modulus (E*) was collected with a hollow cylinder tensile test device; asphalt-aggregate mixtures with varying volume concentrations of aggregate particles were tested over a range of temperatures and loading frequencies.
35
References
•Book
Mechanics of Composite Materials with MATLAB
George Z. Voyiadjis,Peter I. Kattan +1 more
- 24 May 2005
TL;DR: Linear Elastic Stress-Strain Relations Elastic Constants Based on Micromechanics, Plane Stress, Global Coordinate System, Elastic Constant Based on Global Coordinated System, Laminate Analysis - Part I- Laminate analysis - Part II- Effective Elastic Constant of a Laminate- Failure Theories of a Laminating System, Homogenization of Composite Materials, to Damage Mechanics of composite Materials as discussed by the authors.
868
How local stresses control magma-chamber ruptures, dyke injections, and eruptions in composite volcanoes
TL;DR: In this paper, a review of analytical and numerical models of local stresses around magma chambers, as well as analytical models and numerical examples of dyke-injection and eruption frequencies are presented.
435
Study on Mechanical Properties of Natural - Glass Fibre Reinforced Polymer Hybrid Composites: A Review
TL;DR: A review on the mechanical properties of natural-glass fiber reinforced polymer composites is presented in this article, where a brief review has been carried out to make use of natural fibres (such as abaca, banana, bamboo, cotton, coir, hemp, jute, pineapple, sisal etc).
409
The in vitro response of human osteoblasts to polyetheretherketone (PEEK) substrates compared to commercially pure titanium
TL;DR: Differences in human osteoblast responses were found to the various samples of PEE, but implantable grade PEEK, in general, was comparable in vitro to the bone forming capacity of rough titanium.
301
Stress and strain recovery for functionally graded free-form and doubly-curved sandwich shells using higher-order equivalent single layer theory
TL;DR: In this article, through-the-thickness transverse normal and shear strains and stresses in statically deformed functionally graded (FG) doubly-curved sandwich shell structures and shells of revolution using the generalized zigzag displacement field and the Carrera Unified Formulation (CUF).
246