Elias A. C. | ESIQIE IPN (original) (raw)

Books by Elias A. C.

ISBN 0 -13-359 993-0, 1996

e-ISBN-13: 978-1-4020-6808-9, 2009

ISBN: 978-0-87170-503-7, 1994

American Society for Metals ASM International ASM World Headquarters 9639 Kinsman Road Materi... more American Society for Metals
ASM International
ASM World Headquarters
9639 Kinsman Road
Materials Park, OH 44073-0002

ISBN 978-1-107-09676-9 (hardback), 2015

Fracture mechanics studies the development and spread of cracks in materials. It uses methods of ... more Fracture mechanics studies the development and spread of cracks in materials. It uses methods of analytical solid mechanics to calculate the driving force on a crack and those of experimental solid mechanics to characterize the material's resistance to fracture. The subject has relevance to the design of machines and structures in application areas including aerospace, automobiles, power sector, chemical industry, oil industry, shipping, atomic energy and defense. This book presents the gradual development in the fundamental understanding of the subject and in numerical methods that have facilitated its applications. The subject can be studied from the viewpoint of material science and mechanics; the focus here is on the latter. The book, consisting of nine chapters, introduces readers to topics like linear elastic fracture mechanics (LEFM), yielding fracture mechanics, mixed mode fracture and computational aspects of linear elastic fracture mechanics. It also discusses the calculation of theoretical cohesive strength of materials and the Griffith theory of brittle crack propagation and its Irwin and Orowan modification. Explaining analytical determination of crack tip stress field, it also provides an introduction to the airy stress function approach of two dimensional elasticity and Kolosoff-Mukheslishvili potential formulation based on analytic functions. In addition a chapter deals with the characteristics of fracture in terms of crack opening displacement (COD) and J integral and the interpretation of J as potential energy release rate for linear elastic materials. Other relevant topics discussed in the book include stress intensity factor (SIF); factors that affect cyclic crack growth rate and Elber's crack closure effect; fundamentals of elastic plastic fracture mechanics (EPFM) and the experimental measurements of fracture toughness parameters KIC, JIC, crack opening displacement (COD), K-resistance curve etc.

ISBN: 978-0-444-62722-3, 2015

Corrosion Engineering–Principles and Solved Problems is based on the author’s experience teaching... more Corrosion Engineering–Principles and Solved Problems is based on the
author’s experience teaching undergraduate and graduate corrosion courses entitled Corrosion Engineering, Advanced Corrosion Engineering, and Electrochemical and Corrosion Techniques at the University of South Carolina. The book provides an extensive and in-depth theoretical analysis of thermodynamics kinetics, mass transfer, potential theory, and passivation, creating a foundation for understanding the electrochemical nature of the corrosion process and corrosion protection strategies discussed in the book’s second part. Around the world, the students who currently attend corrosion-engineering courses are enrolled in different engineering programs. This fact requires additional topics to be included in the book, and to this end, the book reviews the corrosion processes ,protection strategies, and testing for civil-engineering structures; corrosion in chemical process engineering; mechanical and nuclear corrosion engineering; and metallurgy. The fundamental principles of corrosion and related protection strategies are explained
through solved problems, exercises, and case studies, and the book helps upper-level undergraduate and graduate students learn the subject through an extensive theoretical description of corrosion theory, passivity, corrosion prevention strategies, and corrosion protection system design. The author has attempted to organize the book so the instructor can use it as the basis for a course in corrosion engineering for undergraduate students and also graduate students.

This book provides scientists and engineers with a comprehensive understanding of composite mater... more This book provides scientists and engineers with a comprehensive understanding of composite materials, which form an important class of engineering materials. In describing their production, properties and usage, the book crosses the borders of many disciplines, from the physics and chemistry of the materials themselves, to their design a nd applications in engmeenng. This new edition has been greatly revised and expanded, and a nalyses both the theoretical and practical aspects of the subject. Topics covered include: the properties of fibres, matrices, lamina tes and interfaces; elastic defo rmation, stress and strain, strength, fatigue crack propagation a nd creep resistance; deterioration under environmental conditions. Coverage has been enlarged to include polymeric, metallic and ceramic matrices and reinforcement in the form of lo ng fibres, short fibres a nd particles. New chapters describe toughness a nd thermal properties, the fab rication and applications of composites, and an o utline of the use of the Eshelby method. Designed primarily as a teaching text, this book has evolved from courses given by the authors to fin al year undergraduate students of materials science and materials engineering. lt will also be of interest to undergraduates and postgraduates in chemistry, physics, and mechanical engineering. In addition it will be a n excellent source book for those involved in academic a nd technological research on materials.

ISBN 0 340 73162 1 , 2006

ISBN 978-3-319-09351-2 (eBook), 2015

ISBN 978–0–19–872650–0, 2019

ISBN 9781315119038 (e-book), 2018

The text is written for undergraduate materials science students and can be utilized by materials... more The text is written for undergraduate materials science students and can be utilized by materials-related graduate students who have not taken such a course in their undergraduate studies. It has been more than 40 years since I used the first edition of the text when teaching my first class in thermodynamics at Carnegie Mellon University. I also used the text in the mid-1990s in several summer school classes on thermodynamics at CMU. Experience makes me aware that it is impossible to make
it through the entire text in a one-semester course. In this edition, I have divided the book into three sections. I suggest that at least the first section (“Thermodynamic Principles”) and as much as possible of the second section (“Phase Equilibria”) be included in a one-semester undergraduate course. The third section (“Reactions and Transformations”) can make its way into other courses of the curriculum that deal with oxidation, energy, and phase transformation.

ISBN 9781482235661 , 2017

This book is intended to be an undergraduate text for junior- and senior-level students majoring ... more This book is intended to be an undergraduate text for junior- and senior-level students majoring in materials science and engineering (MSE). Most MSE undergraduate programs have a one-semester kinetics course in their curricula that has taken the place of a classical physical chemistry course and one or more courses on materials processing. This book is not intended to be a reference work that summarizes and evaluates all of the reactions and phase transformations of importance in MSE, although
some unique topics are presented. Given the breadth of the field today—metals, ceramics, electronic materials, polymers, biomaterials, and composites—it is not feasible to cover all of kinetics. Nevertheless, the
book does cover considerably more material than can be covered in a one-semester course and includes approaches and topics that are rarely found elsewhere that might be useful to graduate students, researchers, and industrial practitioners. One goal of this book is to incorporate important concepts that all students in MSE should be exposed to at some point in their careers based on the author’s personal experience as a student, researcher, practicing engineer, and instructor over a number of years. The primary goal is to develop simple mathematical models, involving process variables such as temperature, pressure, composition, and time, to provide a fundamental model-based understanding of commercially important materials processes critical to the development, fabrication, and application of materials. In doing so, at the expense of additional equations, most of the mathematical steps necessary to develop a model are explicitly presented so the student, or reader, can follow the text without the absolute necessity of an instructor for interpretation and insertion of the missing steps—frequently the case in many textbooks. This, of course, means more pages to cover a given topic.

ISBN 0-7918-0153-5, 2000

Information Contained in this work has been obtained by the American Society of Mechanical Engine... more Information Contained in this work has been obtained by the American Society of Mechanical Engineers from sources believed to be reliable.
However neither ASME nor its authors or editors guarantee the accuracy or completeness of any information published in this work. Neither ASME nor its authors and editors shall be responsible for any errors, omissions or damages arising out of the use of this information. The work is published with the understanding that ASME and its authors and editors are supplying information but are not attempting to render engineering or other professional services. If such engineering or professional services are required, the assistance of an appropriate professional should be sought.

A Textbook of mineralogy with an extend treatise on crystallography and physical mineralogy by Ed... more A Textbook of mineralogy with an extend treatise on crystallography and physical mineralogy by Edward Salisbury Dana.

A detailed approach of mechanical behavior of materials. This textbook provides the basics of mec... more A detailed approach of mechanical behavior of materials. This textbook provides the basics of mechanical behavior of materials detailed explained.
It's mainly focused on the theory rather than problems thus, It shall not be used as main text but as a complementary text.

ISBN 978-1-107-00452-8, 2011

This book is designed to help the engineer understand the principles of metal forming and to anal... more This book is designed to help the engineer understand the principles of metal forming and to analyze forming problems – both the mechanics of forming processes
and how the properties of metals interact with the processes. In this book, an entire
chapter is devoted to forming limit diagrams and various aspects of stamping and
another to other sheet forming operations. Sheet testing is covered in a separate
chapter. Coverage of sheet metal properties has been expanded. Interesting end of-chapter notes have been added throughout, as well as references. More than
200 end-of-chapter problems are also included.

ISBN-10 ‏ : ‎ 2884491279 , 1995

This book was created to help teach rate theory and transport phenomena using numerical examples ... more This book was created to help teach rate theory and transport phenomena using numerical examples to apply theory to the most up-to-date mineral and material processing techniques. The text integrates theory, methodology and extensive numerical applications for use in chemical engineering, materials science and process metallurgy courses. Elements of transport and rate theory encompass such important phenomena as fluid flow, conduction, diffusion and heat transport.

Physical Metallurgy explained step by step