Finite Element Analysis of Composite Materials using Abaqus®

Ever J. Barbero

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English

CRC Press
04 May 2023

Numerical analysis; Plastics & polymers technology; Mechanical engineering

Series: Composite Materials

Developed from the author’s course on advanced mechanics of composite materials, Finite Element Analysis of Composite Materials with Abaqus® shows how powerful finite element tools tackle practical problems in the structural analysis of composites. This Second Edition includes two new chapters on ""Fatigue"" and ""Abaqus Programmable Features"" as well as a major update of chapter 10 ""Delaminations"" and significant updates throughout the remaining chapters. Furthermore, it updates all examples, sample code, and problems to Abaqus 2020.

Unlike other texts, this one takes theory to a hands-on level by actually solving problems. It explains the concepts involved in the detailed analysis of composites, the mechanics needed to translate those concepts into a mathematical representation of the physical reality, and the solution of the resulting boundary value problems using Abaqus. The reader can follow a process to recreate every example using Abaqus graphical user interface (CAE) by following step-by-step directions in the form of pseudo-code or watching the solutions on YouTube.

The first seven chapters provide material ideal for a one-semester course. Along with offering an introduction to finite element analysis for readers without prior knowledge of the finite element method, these chapters cover the elasticity and strength of laminates, buckling analysis, free edge stresses, computational micromechanics, and viscoelastic models for composites. Emphasizing hereditary phenomena, the book goes on to discuss continuum and discrete damage mechanics as well as delaminations and fatigue. The text also shows readers how to extend the capabilities of Abaqus via ""user subroutines"" and Python scripting.

Aimed at advanced students and professional engineers, this textbook features 62 fully developed examples interspersed with the theory, 82 end-of-chapter exercises, and 50+ separate pieces of Abaqus pseudo-code that illustrate the solution of example problems. The author’s website offers the relevant Abaqus and MATLAB model files available for download, enabling readers to easily reproduce the examples and complete the exercises: https://barbero.cadec-online.com/feacm-abaqus/index.html. Video recording of solutions to examples are available on YouTube with multilingual captions.

By: Ever J. Barbero
Imprint: CRC Press
Country of Publication: United Kingdom
Edition: 2nd edition
Dimensions: Height: 254mm, Width: 178mm,
Weight: 1.220kg
ISBN: 9780367621452
ISBN 10: 0367621452
Series: Composite Materials
Pages: 535
Publication Date: 04 May 2023
Audience: College/higher education , Primary
Format: Hardback
Publisher's Status: Active

1. Mechanics of Orthotropic Materials. 2. Introduction to Finite Element Analysis. 3. Elasticity and Strength of Laminates. 4. Buckling. 5. Free Edge Stresses. 6. Computational Micromechanics. 7. Viscoelasticity. 8. Continuum Damage Mechanics. 9. Discrete Damage Mechanics. 10. Delaminations. 11. Fatigue. 12. Abaqus Programmable Features.

Ever J. Barbero, BSME-BSEE UNRC (1983), Ph.D. Va. Tech (1989), Fellow of ASME and SAMPE, Professor of Mechanical and Aerospace Engineering at West Virginia University, Honorary Professor at Universidad Nacional de Trujillo (Peru), Universidad Carlos III de Madrid (Spain), and Universidad de Puerto Rico at Mayaguez (PR). He is the author of ""Introduction to Composite Materials Design-Third Edition"" CRC (2018), ""Finite Element Analysis of Composite Materials Using Abaqus"" CRC (2013), and ""Finite Element Analysis of Composite Materials Using ANSYS-Second Ed."" CRC (2014), ""Multifunctional Composites"" (2016), and Workbook for ""Introduction to Composite Materials Design"" (2018), as well as 9 book chapters and 165+ Journal publications. He holds US Patents #6,455,131 (2002) and #6,544,624 (2003) and has mentored over 30 MS and 20 Ph.D. graduates. He is Member of the editorial board of ""Annals of Solid and Structural Mechanics"" and ""Mechanics of Advanced Materials and Structures"". Recognized internationally for his work on material models for advanced materials such as Aerogels, Composites, Self-healing Composites, Superalloys, Thermoelectric materials, and Inflatable structures. Received the AE Alumni Academy Award for Outstanding Teaching and numerous research awards. H-index: 53. Citations: 12,000+. See: http://barbero.cadec-online.com/publications_list.pdf