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Author: Dean Curtis Foster
Publisher:
ISBN: 9780549954064
Category : Composite materials
Languages : en
Pages : 511
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Book Description
The present work has identified two competing failure initiation mechanisms occurring in a unidirectional model composite system when loaded transverse to the direction of the fibers. Matrix cavitation and fiber-matrix debonding are the failure modes that have manifested themselves as a function of fiber spacing in multi-fiber cruciform specimens. The model composite system used two transparent epoxy systems, a linear room temperature cured 828/D-230 system and a nonlinear high temperature cured 862/W system, with five 0.36 mm diameter stainless steel wires as fibers. The fibers were arranged such that a single fiber was placed at the intersection of the face diagonals of four fibers located at the corners of a square. Seven different fiber spacing groups were tested ranging in volume fraction from 64% to 4%. Failure initiation was optically detected in-situ via the reflected light method using multiple high resolution, high magnification microscope video cameras. Three dimensional (3-D) finite element models (FEM) for all fiber spacing groups tested were used to analyze the stress state in the cruciform specimen at failure initiation. Residual stresses of both epoxy systems were measured by photoelasticity methods for incorporation into the micromechanical FEM. Analytical results of the individual cruciform 3-D FEMs in conjunction with the experimental observations were used to evaluate fiber-matrix debond and matrix failure criteria. A linear interaction debond criterion expressed as the sum of the ratios of the interfacial normal stress to tensile strength and interfacial shear stress to shear strength best validated the observed debond limits at the fiber spacing exhibiting fiber-matrix debonding as failure initiation. For the matrix failure criterion, analytical results indicated that the Mohr-Coulomb criterion validated the fiber spacing exhibiting cavitation. This work has developed failure criteria that correctly identified the two competing failure initiation modes that occurred as a result of the varying internal stress state as a function of fiber spacing. The criteria accurately predicted the observed debonding limits and matrix cavitation of both matrix systems. The detailed understanding and findings of this work will assist the materials engineer by increasing the fidelity of composite solutions to meet the increasing aerospace structural demands.
Author: Dean Curtis Foster
Publisher:
ISBN: 9780549954064
Category : Composite materials
Languages : en
Pages : 511
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Book Description
The present work has identified two competing failure initiation mechanisms occurring in a unidirectional model composite system when loaded transverse to the direction of the fibers. Matrix cavitation and fiber-matrix debonding are the failure modes that have manifested themselves as a function of fiber spacing in multi-fiber cruciform specimens. The model composite system used two transparent epoxy systems, a linear room temperature cured 828/D-230 system and a nonlinear high temperature cured 862/W system, with five 0.36 mm diameter stainless steel wires as fibers. The fibers were arranged such that a single fiber was placed at the intersection of the face diagonals of four fibers located at the corners of a square. Seven different fiber spacing groups were tested ranging in volume fraction from 64% to 4%. Failure initiation was optically detected in-situ via the reflected light method using multiple high resolution, high magnification microscope video cameras. Three dimensional (3-D) finite element models (FEM) for all fiber spacing groups tested were used to analyze the stress state in the cruciform specimen at failure initiation. Residual stresses of both epoxy systems were measured by photoelasticity methods for incorporation into the micromechanical FEM. Analytical results of the individual cruciform 3-D FEMs in conjunction with the experimental observations were used to evaluate fiber-matrix debond and matrix failure criteria. A linear interaction debond criterion expressed as the sum of the ratios of the interfacial normal stress to tensile strength and interfacial shear stress to shear strength best validated the observed debond limits at the fiber spacing exhibiting fiber-matrix debonding as failure initiation. For the matrix failure criterion, analytical results indicated that the Mohr-Coulomb criterion validated the fiber spacing exhibiting cavitation. This work has developed failure criteria that correctly identified the two competing failure initiation modes that occurred as a result of the varying internal stress state as a function of fiber spacing. The criteria accurately predicted the observed debonding limits and matrix cavitation of both matrix systems. The detailed understanding and findings of this work will assist the materials engineer by increasing the fidelity of composite solutions to meet the increasing aerospace structural demands.
Author: Yŏng-bae Cho
Publisher:
ISBN:
Category : Composite materials
Languages : en
Pages : 276
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Book Description
Author: Jacob Aboudi
Publisher: Butterworth-Heinemann
ISBN: 0128206381
Category : Technology & Engineering
Languages : en
Pages : 418
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Book Description
Practical Micromechanics of Composite Materials provides an accessible treatment of micromechanical theories for the analysis and design of multi-phased composites. Written with both students and practitioners in mind and coupled with a fully functional MATLAB code to enable the solution of technologically relevant micromechanics problems, the book features an array of illustrative example problems and exercises highlighting key concepts and integrating the MATLAB code. The MATLAB scripts and functions empower readers to enhance and create new functionality tailored to their needs, and the book and code highly complement one another. The book presents classical lamination theory and then proceeds to describe how to obtain effective anisotropic properties of a unidirectional composite (ply) via micromechanics and multiscale analysis. Calculation of local fields via mechanical and thermal strain concentration tensors is presented in a unified way across several micromechanics theories. The importance of these local fields is demonstrated through the determination of consistent Margins of Safety (MoS) and failure envelopes for thermal and mechanical loading. Finally, micromechanics-based multiscale progressive damage is discussed and implemented in the accompanying MATLAB code. - Emphasizes appropriate application of micromechanics theories to composite behavior - Addresses multiple popular micromechanics theories, which are provided in MATLAB - Discusses stresses and strains resulting from realistic thermal and mechanical loading - Includes availability of solution manual for professors using the book in the classroom
Author: M. Hinton
Publisher: Elsevier
ISBN: 0080531571
Category : Technology & Engineering
Languages : en
Pages : 1269
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Book Description
Fiber reinforced polymer composites are an extremely broad and versatile class of material.Their high strength coupled with lightweight leads to their use wherever structural efficiency is at a premium. Applications can be found in aircraft, process plants, sporting goods and military equipment. However they are heterogeneous in construction and antisotropic, which makes making strength prediction extremely difficult especially compared to that of a metal. This book brings together the results of a 12year worldwide failure exercise encompassing 19 theories in a single volume. Each contributor describes their own theory and employs it to solve 14 challenging problems. The accuracy of predictions and the performance of the theories are assessed and recommendations made on the uses of the theories in engineering design.All the necessary information is provided for the methodology to be readily employed for validating and benchmarking new theories as they emerge.Brings together 19 failure theories, with many application examples.Compares the leading failure theories with one another and with experimental dataFailure to apply these theories could result in potentially unsafe designs or over design.
Author: Christopher J. Spragg
Publisher: ASTM International
ISBN: 080312046X
Category : Composite material
Languages : en
Pages : 206
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Book Description
Emphasizing fiber-matrix adhesion and its characterization in composite materials, reports results from applying the most commonly used test methods, such as fragmentation, pull-out, and indentation, to high-performance composites and their constituents. The 13 papers were presented at a symposium i
Author: Stepan V Lomov
Publisher: Elsevier
ISBN: 0857092537
Category : Technology & Engineering
Languages : en
Pages : 557
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Book Description
Non-crimp fabric (NCF) composites are reinforced with mats of straight (non-crimped) fibres, giving them such advantages as strength, ease of handling and low manufacturing costs. Non-crimp fabric composites provides a comprehensive review of the use of NCF composites, their manufacture and applications in engineering.Part one covers the manufacture of non-crimp fabrics, including also topics such as structural stitching and automated defect analysis. Part two goes on to discuss the manufacture of non-crimp fabric composites, with chapters covering such topics as deformability and permeability of NCF. Part three focuses on the properties of NCF composites, with chapters on stiffness and strength, damage progression and fatigue. Finally, part four covers the applications of NCF composites, including chapters on the aerospace and automotive industries as well as wind turbines and helicopter applications. The book concludes with a discussion of cost analysis of NCF composites in engineering applications.With its distinguished editor and international team of expert contributors, Non-crimp fabric composites is an essential reference for composite manufacturers and structural and mechanical engineers in industries using NCF composites, as well as academics with a research interest in the field. - Provides a comprehensive review of the use of NCF composites, their manufacture and applications in engineering - Reviews the manufacture of non-crimp fabrics, including also topics such as structural stitching and automated defect analysis - Examines the properties of NCF composites considering stiffness and strength, damage progression and fatigue
Author: Tarek I. Zohdi
Publisher: Springer Science & Business Media
ISBN: 3540323600
Category : Science
Languages : en
Pages : 199
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Book Description
In this, its second corrected printing, Zohdi and Wriggers’ illuminating text presents a comprehensive introduction to the subject. The authors include in their scope basic homogenization theory, microstructural optimization and multifield analysis of heterogeneous materials. This volume is ideal for researchers and engineers, and can be used in a first-year course for graduate students with an interest in the computational micromechanical analysis of new materials.
Author: Anthony M. Waas
Publisher: DEStech Publications, Inc
ISBN: 1605950882
Category : Technology & Engineering
Languages : en
Pages : 282
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Book Description
The fourth volume of the ASC series on advanced composites contains critical information on static and dynamic composite failure and how it is predicted and modeled using novel computational methods and micromechanical analysis.
Author: Israel G. Garcia
Publisher: CreateSpace
ISBN: 9781508849117
Category :
Languages : en
Pages : 316
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Book Description
This thesis deals with the application of the coupled criterion to characterize the first steps of failure mechanisms in composites. The coupled criterion was developed in the context of the finite fracture mechanics and is based on assuming that a crack of a finite extension appears abruptly when a stress criterion is fulfilled and this crack onset is energetically admissible. Using this criterion, the critical load leading to a crack onset can be expressed as a function of well-known physical properties of the material as strength and fracture toughness. The thesis outline can be divided into two main parts: The first part studies the phenomenon of crack initiation and the failure criterion employed here for its prediction. The controversial concept of crack initiation and the main tool employed to predict it are discussed. The formulation and the practical application of the coupled criterion are also reviewed. The second part describes the application of the coupled criterion to different failure mechanisms at different scales: fiber-matrix debonding under transverse loading in FRC, debonding of spherical inclusions in particle-reinforced composites, transverse cracking in cross-ply laminates and crack initiation at a weak surface in a bonded V-notch.
Author: J.P. Boehler
Publisher: Springer
ISBN: 3709128102
Category : Technology & Engineering
Languages : en
Pages : 303
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Book Description
