Finite Element Analysis Of Mixed Mode Fracture Of Bolted Composite Joints
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Finite Element Analysis of Mixed-Mode Fracture of Bolted Composite Joints
The presence of a flaw or crack near a bolt-loaded hole can significantly reduce the strength of a mechanical joint. Stress intensity factors of mixed-mode cracks emanating from a bolt-loaded hole in a loaded finite composite are evaluated here using the finite element method. Both a horizontal crack adjacent to the bolt and a vertical crack beneath the bolt of a mechanical joint are studied. Linear elastic fracture mechanics is used, and the bolt is assumed to be rigid. The contact stresses are evaluated rather than assumed. Effects of friction, both clearance, geometric nonlinearity between the bolt and the composite, variations in geometry (end distance, crack length, and edge distance), and material properties are accommodated. The magnitudes of the stress intensity factors are found to be highly influenced by variations in the material properties, crack length, and in-plane geometry.
Finite Element Modelling of Composite Materials and Structures
Finite element modelling of composite materials and structures provides an introduction to a technique which is increasingly being used as an analytical tool for composite materials.The text is presented in four parts: - Part one sets the scene and reviews the fundamentals of composite materials together with the basic nature of FRP and its constituents. Two-dimensional stress-strain is covered, as is laminated plated theory and its limitations. - Part two reviews the basic principles of FE analysis, starting with underlying theoretical issues and going on to show how elements are derived, a model is generated and results are processed. - Part three builds on the basics of FE analysis and considers the particular issues that arise in applying finite elements to composites, especially to the layered nature of the material. - Part four deals with the application of FE to FRP composites, presenting analytical models alongside FE representations. Specific issues addressed include interlaminar stresses, fracture delamination, joints and fatigue.This book is invaluable for students of materials science and engineering, and for engineers and others wishing to expand their knowledge of structural analysis. - Covers important work on finite element analysis of composite material performance - Based on material developed for an MSc course at Imperial College, London, UK - Covers particular problems such as holes, free edges with FE results compared with experimental data and classical analysis
Handbook of Structural Life Assessment
Author: Raouf A. Ibrahim
language: en
Publisher: John Wiley & Sons
Release Date: 2017-03-29
This important, self-contained reference deals with structural life assessment (SLA) and structural health monitoring (SHM) in a combined form. SLA periodically evaluates the state and condition of a structural system and provides recommendations for possible maintenance actions or the end of structural service life. It is a diversified field and relies on the theories of fracture mechanics, fatigue damage process, and reliability theory. For common structures, their life assessment is not only governed by the theory of fracture mechanics and fatigue damage process, but by other factors such as corrosion, grounding, and sudden collision. On the other hand, SHM deals with the detection, prediction, and location of crack development online. Both SLA and SHM are combined in a unified and coherent treatment.