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Introduction to the Principles of Materials Evaluation - David C. Jiles |
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Cover Price : Rs 3,995.00
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Imprint : CRC Press ISBN : 9781498798006 YOP : 2016
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Binding : Hardback Total Pages : 304 CD : No
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About the Book:-
Choosing the proper material testing technique is important not just for economic reasons; in many circumstances, it can save lives. Building on the common links among all types of material evaluation methods, Introduction to the Principles of Materials Evaluation presents a thorough examination of all types of destructive and nondestructive testing methods, focusing on the advantages and practical utility of each. It offers students the opportunity to learn the underlying physical principles, rather than a laundry list of techniques, to make sure they choose the right method.
Developing an understanding of the way different types of energy interact with materials, the author first discusses relevant physical properties and how to determine them using mechanical, acoustic, thermal, optical, electrical, magnetic, and radiative energy. For the remainder of the book, he systematically examines the testing methods derived from these types of energy, how the methods work, how to identify defects and potential problems, and how to make decisions based on the results. Numerous illustrations, examples, and exercises help demonstrate the concepts and reinforce learning. The book also explores related issues such as choosing between destructive and nondestructive methods, the probability of defect detection, reliability and decision making, and lifetime extension.
This text offers a unified and practical perspective on a wide variety of testing techniques and their effective use. Introduction to the Principles of Materials Evaluation is the ideal choice to give students a strong basis for making effective decisions and gain a firm understanding of materials testing.
Contents:-
Introduction. Mechanical Properties of Materials. Sound Waves: Acoustic and Ultrasonic Properties of Materials. Thermal Properties of Materials. Electrical and Magnetic Properties of Materials. Effects of Radiation on Materials. Mechanical Testing Methods. Ultrasonic Testing Methods. Electrical Testing Methods. Magnetic Testing Methods. Radiographic Testing Methods. Thermal Testing Methods. Destructive vs. Nondestructive Testing. Defect Detection. Reliability and Lifetime Extension. Appendix: Solutions to Exercises. Index. |
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Rubber Materials - B. Kothandaraman |
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Cover Price : Rs 595.00
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Imprint : Ane Books Pvt. Ltd. ISBN : 9788180522245 YOP : 2009
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Binding : Hardback Total Pages : 168 CD : No
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About the Book :-
Advances in the field of Rubber and Plastics technologies have changed the face of modern life. Rubbers play a vital role in automobile, aeronautics, electrical and electronics, materials handling, health care, power transmission fields besides a host of other applications. Hence, every engineer must know about rubber components and their by products that are important in the functioning of machines, automobiles etc. Appropriate choice of the materials into the making of such rubber components is vital. To understand the properties, a strong understanding of the role played by polymer structure is vital.
This book begins with a chapter on Structure-property relationships in rubbers and covers all the important aspects of rubber materials and its compositions in the subsequent chapters. This book will be useful for Diploma and Bachelors level students of Polymer Science and Technology besides technologists working in Rubber Industry. This will also help aspirants of Diploma of Indian Rubber Institute exams.
Contents :-
Preface
1. Structure–Property Relationships in Rubbers
2. Natural Rubber
3. General Purpose Synthetic Rubbers
4. Special Purpose Synthetic Rubbers
5. High Performance Elastomers
6. Compounding Ingredients
7. Thermoplastic Elastomers
8. Blending and Compounding of Rubbers
Bibliography
Index.
About the Author :-
Dr B. Kothandaraman has 19 years of experience in Teaching and Research in the field of Polymer Technology. After completing Masters in Chemistry (M.Sc) and Rubber Technology (M.Tech) from University of Rajasthan and IIT Kharagpur respectively, he did his research in the field of Rubber Modified Thermosets and their Composites and got his Doctoral degree. He has guided a number of M.S (by research) scholars and M.E students. Presently, he is guiding three Ph.D candidates.
After a short stint in marketing of Sophisticated Lab equipment he moved into MIT Campus of Anna University & has since been teaching subjects like Rubber Materials, Plastics Materials, Rubber Testing, Composite Materials, Adhesives etc.
He has written a chapter in Handbook of Polymer Blends and Composites published by Rapra Technologies Ltd, UK. He has also presented and published a few papers in International Conferences and Journals.
Presently, he is heading the Department of Rubber and Plastics Technology at MIT Campus of Anna University.
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Introduction to the Thermodynamics of Materials,5th ed. with CD - David R. Gaskell (Reprint 2017) |
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Cover Price : Rs 1,095.00
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Imprint : T & F / Routledge ISBN : 9781498778589 YOP : 2017
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Binding : Paperback Total Pages : 632 CD : Yes
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About the Book :-
For more than thirty years, this text has been the definitive introduction to the thermodynamic principles of materials and their multitude of applications. New to this edition is a detailed discussion of acetylene combustion and a numerical explanation for the expansion of ideal gases, as well as additional worked examples covering a wide variety of applied thermodynamics concepts.
The accompanying CD has been completely updated to use Excel as a computational thermodynamics tool. Twenty-five examples related to the text are solved in step-by-step detail. Students can conduct thermodynamic calculations, generate equation parameters from tabular data, calculate reaction parameters, and perform equilibrium calculations involving non-ideal solutions.
This textbook is ideal for advanced undergraduates and first-year graduate students and a a reference for professionals in metallurgy, metallurgical engineering, ceramics and materials science.
Contents :-
Preface
1. Introduction and Definition of Terms
2. The First Law of Thermodynamics
3. The Second Law of Thermodynamics
4. The Statistical Interpretation of Entropy
5. Auxiliary Functions
6. Heat Capacity, Enthalpy, Entropy, and the Third Law of Thermodynamics
7. Phase Equilibrium in a One-Component System
8. The Behavior of Gases
9. The Behavior of Solutions
10. Gibbs Free Energy-Composition and Phase Diagrams of Binary Systems
11. Reactions Involving Gases
12. Reactions Involving Pure Consensed Phases and a Gaseous Phase
13. Reaction Equilibria in Systems Containing Components in Condensed Solutions
14. Phase Diagrams for Binary Systems in Pressure-Temperature-Composition Space
15. Electrochemistry
Appendix A: Selected Thermodynamic and Thermochemical Data
Appendix B Exact Differential Equations
Appendix C The Generation of Auxiliary Functions as Legendre Transformations
Nomenclatures
Answers
Index.
About the Author :-
David R. Gaskell earned his B.Sc. in Metallurgy and Technical Chemistry from the University of Glasgow and a Ph.D. from McMaster University. A professor of Materials Engineering at Purdue University since 1982, he started his teaching career at the University of Pennsylvania in 1967.
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Introduction to Engineering Materials (Indian Reprint 2012) - George Murray |
Author |
George Murray Charles V White Wolfgang Weise
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Cover Price : Rs 1,995.00
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Imprint : T & F / Routledge ISBN : 9781574446835 YOP : 2012 Edition : 2012
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Binding : Hardback Total Pages : 544 CD : No
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About the Book :-
Designed for the general engineering student, Introduction to Engineering Materials, Second Edition focuses on materials basics and provides a solid foundation for the non-materials major to understand the properties and limitations of materials. Easy to read and understand, it teaches the beginning engineer what to look for in a particular material, offers examples of materials usage, and presents a balanced view of theory and science alongside the practical and technical applications of material science.
Completely revised and updated, this second edition describes the fundamental science needed to classify and choose materials based on the limitations of their properties in terms of temperature, strength, ductility, corrosion, and physical behavior. The authors emphasize materials processing, selection, and property measurement methods, and take a comparative look at the mechanical properties of various classes of materials. Chapters include discussions of atomic structure and bonds, imperfections in crystalline materials, ceramics, polymers, composites, electronic materials, environmental degradation, materials selection, optical materials, and semiconductor processing. Filled with case studies to bring industrial applications into perspective with the material being discussed, the text also includes a pictorial approach to illustrate the fabrication of a composite.
Consolidating relevant topics into a logical teaching sequence, Introduction to Engineering Materials, Second Edition provides a concise source of useful information that can be easily translated to the working environment and prepares the new engineer to make educated materials selections in future industrial applications.
Contents :-
Introduction, Properties and Their Measurement, Atomic Structure and Atomic Bonds, Structure of Crystalline Solids, Diffusion and Plastic Deformation, Property Management of Metallic Materials, Ceramics, Structure and Properties of Polymers, Composites, Electrical Properties of Materials, Magnetic Materials, Optical Materials, Semiconductor Processing, Environmental Degradation of Engineering Materials, Materials and Process Selection, Ferrous and Nonferrous Metals for Special Applications, Comparative Properties, Index .
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Mechanisms of Diffusional Phase Transformations in Metals and Alloys |
Author |
Hubert I. Aaronson Masato Enomoto
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Cover Price : Rs 5,995.00
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Imprint : CRC Press ISBN : 9781498798099 YOP : 2016
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Binding : Hardback Total Pages : 685 CD : No
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About the Book
Offers a thorough exploration of the mechanisms of diffusional phase transformations in metallic materials from theoretical and experimental viewpoints
Includes hundreds of illustrations, photos, and extensive references
Discusses in detail diffusional nucleation in the framework of classical and nonclassical nucleation theories
Examines the theories of diffusional growth based on diffusion and solid-interface theories
Provides a comprehensive description of the development of theories of precipitation, massive transformation, cellular reaction, and pearlite transformation
Gives an extended discussion of the bainite reaction, one of the most controversial transformations in solid materials
Summary
Developed by the late metallurgy professor and master experimentalist Hubert I. Aaronson, this collection of lecture notes details the fundamental principles of phase transformations in metals and alloys upon which steel and other metals industries are based.
Mechanisms of Diffusional Phase Transformations in Metals and Alloys is devoted to solid-solid phase transformations in which elementary atomic processes are diffusional jumps, and these processes occur in a series of so-called nucleation and growth through interface migration. Instead of relying strictly on a pedagogical approach, it documents the evolution of phase transformation concepts. The authors present topics by describing a phenomenon and then following up with a corresponding hypothesis or alternative explanation. In this way, the book also shows how the field continues to evolve and meet new challenges.
Integrated with information from a number of key papers and review articles, this volume reflects this revered and influential instructor’s unique and passionate way of introducing well-established theories and knowledge in a systematic way, at the same time introducing, in great detail, how a new idea or interpretation of a phenomenon has emerged, evolved, and gained its current status. If the published version of a theory or a model was too condensed, Aaronson worked the problem out in painstaking detail so that graduate students could follow the derivations. This collection is full of such unique "Aaronsonian idiosyncrasies," which add immense value as a powerful tool for learning in this challenging materials field.
Contents
Applied Thermodynamics
Free Energy-Composition Relationships for Binary Substitutional Solid Solutions
Free Energy-Composition Diagram and Applications to Driving Force Calculations
Thermodynamics of Interstitial Solid Solutions through Application to the Proeutectoid Ferrite Reaction in Fe-C Alloys
Diffusional Nucleation in Solid–Solid Transformations
Introduction through Qualitative General Statements
Brief Comparative Survey of Nucleation in the Four Basic Types of Phase Transformation
Outline of Approach for Development of Nucleation Theory
Proof that the Equilibrium Concentration of Critical Nuclei Is Proportional to exp(_DG*=kT)
Fictitious Equilibrium Nucleation Rate
Derivation of Steady-State Nucleation Rate
Estimation of b*
Time-Dependent Nucleation Rate
Feder et al.’s Treatment of t
Time-Dependent Nucleation Rate for Homogeneous Nucleation with Isotropic g
Ancillary Parameters
Preliminary Consideration of the Approximation for f¼DGvþW
Nonclassical Nucleation Theory
Modifications of Homogeneous Nucleation Kinetics by Anisotropic Interfacial Energy
Nucleation Kinetics at the Faces of Disordered Grain Boundaries
Comparative Nucleation Kinetics at Grain Faces, Edges, and Corners Relative to Homogeneous Nucleation: Trade-Offs between N and DG* When gab Is Isotropic Nucleation at Dislocations
Comparisons of Theory and Experiment
Diffusional Growth
Basic Differences between Diffusional Nucleation and Diffusional Growth
A General Theory of Precipitate Morphology
Disordered Interphase Boundaries
Partially and Fully Coherent Interphase Boundaries
Relative Growth Kinetics of Disordered and Partially Coherent Interphase Boundaries
Precipitation
Introduction
Metastable Equilibrium Phase Boundaries
GP Zones
Transition Phases
Nucleation Sites
Successive Reactions Involving Different Phases
Precipitate Free Zones
Coarsening (Ostwald Ripening)
Overall Evolution of the Microstructure
Massive Transformation
Definition and History
Phase Diagrams
Thermodynamics
Overall Reaction Kinetics and the Existence Range
Nucleation of Massive Transformation
Growth Kinetics
Interfacial Structure, Habit Planes, Orientation Relationships, and Growth Mechanisms
Note on the Driving Force for Trans-Interphase Boundary Diffusion during Massive Transformation in a Two-Phase Field
Cellular Reaction
Definition and Introduction
Systematics of Cellular Reactions
Nucleation of Cellular Reactions
Growth Kinetics of Cells
Pearlite Reaction
Systematics
Crystallography, Nucleation, and Growth Mechanisms
Edgewise Growth Kinetics of Pearlite
Martensitic Transformations
Definition
Salient Characteristics (Described Briefly)
Thermodynamics of Martensite Transformation
Overall Kinetics of Martensite Transformation
Nucleation of Martensite
Crystallography and Growth (or Propagation) of Martensite
Bainite Reaction and Role of Shear in Diffusional Phase Transformations
Introduction
Three Definitions of Bainite
Upper Bainite vs. Lower Bainite, and Inverse Bainite
Sources of Carbide Precipitation
References
Index
About the Author
Hubert Irwin Aaronson (Hub) received his BS, MS, and Ph.D. in metallurgical engineering at Carnegie Institute of Technology, Pittsburgh, Pennsylvania (now Carnegie Mellon University). He was a worldwide leader in the field of phase transformations of metals and alloys for more than half a century. He published more than 300 technical papers, organized numerous symposia and conferences, served a number of technical committees, and was recognized with many awards. He was a member of the U.S. National Academy of Engineering, Washington, District of Columbia; a fellow of both The Minerals, Metals and Material Society and ASM International; and an honorary member of the Japan Institute of Metals, Sendai, Japan. As R.F. Mehl Professor Emeritus at Carnegie Mellon University, Hub continued his professional activities to the very end until his passing in December 2005.
Masato Enomoto received his BS and MS in physics from Tokyo University, and his Ph.D. from Carnegie Mellon University, Pittsburgh, Pennsylvania. He received many honors and awards both in the United States and in Japan for his research on phase transformations in metallic materials. He authored a book, Phase Transformations in Metals, in Japanese, and served on the editorial boards of several technical journals, including ISIJ International as editor-in-chief. He was elected a fellow of ASM International. He is currently a professor of materials science and engineering, Ibaraki University, Hitachi City, Japan.
Jong K. Lee received his BS from Seoul National University, Seoul, South Korea; his MS from the University of Washington, Seattle; and his Ph.D. from Stanford University, California. He taught at Michigan Technological University, Houghton, for over three decades. He is a fellow of ASM International, and a foreign member of both the Korean Academy of Science and Technology and the National Academy of Engineering of Korea. He continues his research activities as a professor emeritus and research professor at the Department of Materials Science and Engineering, Michigan Technological University. |
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Physical Metallurgy - William F Hosford, 2nd edition |
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Cover Price : Rs 2,495.00
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Imprint : T & F / Routledge ISBN : 9781439813607 YOP : 2015
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Binding : Hardback Size : 6.3 Total Pages : 441 CD : No
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About the Book :-
For students ready to advance in their study of metals, Physical Metallurgy, Second Edition uses engaging historical and contemporary examples that relate to the applications of concepts in each chapter.
This book combines theoretical concepts, real alloy systems, processing procedures, and examples of real-world applications. The author uses his experience in teaching physical metallurgy at the University of Michigan to convey this topic with greater depth and detail than most introductory materials courses offer.
What’s New in the Second Edition:
Chapter on crystallographic textures and their influence on microstructure and properties
Expanded section on aluminum-lithium alloys
Information on copper and nickel
Rewritten chapters on other non-ferrous metals and low carbon steels
Discussions of compact graphite and austempered ductile iron
Expanded discussions of cemented carbide tools
Updated table on metal prices
Following an introduction to metals, the author covers topics that are common to all metals, including solidification, diffusion, surfaces, solid solutions, intermediate phases, dislocations, annealing, and phase transformations. He also focuses on specific nonferrous alloy systems and their significant metallurgical properties and applications, the treatment of steels (including iron-carbon alloys), hardening, tempering and surface treatment, special steels, low carbon sheet steel, and cast irons. The book also covers powder metallurgy, corrosion, welding, and magnetic alloys. There are appendices on microstructural analysis, stereographic projection, and the Miller-Bravais system for hexagonal crystals. These chapters address ternary phase diagrams, diffusion in multiphase systems, the thermodynamic basis for phase diagrams, stacking faults and hydrogen embrittlement.
With ample references and sample problems throughout, this text is a superb tool for any advanced materials science course.
Physical Metallurgy uses engaging historical and contemporary examples that relate to the applications of concepts in each chapter. With ample references and sample problems throughout, this text is a superb tool for any advanced materials science course.
Contents :-
Preface
Author
Chapter 1: INTRODUCTION
Chapter 2: FREEZING
Chapter 3: DIFFUSION
Chapter 4: SURFACE TENSION AND SURFACE ENERGY
Chapter 5: SOLID SOLUTIONS
Chapter 6: INTERMEDIATE PHASES
Chapter 7: PHASE DIAGRAMS
Chapter 8: DISLOCATIONS
Chapter 9: ANNEALING
Chapter 10: PHASE TRANSFORMATIONS
Chapter 11: CRYSTALLOGRAPHIC TEXTURES
Chapter 12: ALUMINUM AND ITS ALLOYS
Chapter 13: COPPER AND NICKEL ALLOYS
Chapter 1: HEXAGONAL CLOSE-PACKED METALS
Chapter 15: OTHER NONFERROUS ALLOYS
Chapter 16: STEELS
Chapter 17: HARDENING OF STEELS
Chapter 18: TEMPERING AND SURFACE HARDENING
Chapter 19: LOW CARBON SHEET STEELS
Chapter 20: SPECIAL STEELS
Chapter 21: CAST IRONS
Chapter 22: WELDING, BRAZING, AND SOLDERING
Chapter 23: POWDER PROCESSING
Chapter 24: MAGNETIC MATERIALS
Chapter 25: CORROSION
APPENDIX 1: MICROSTRUCTURAL ANALYSIS
APPENDIX 2: STEREOGRAPHIC PROJECTION
INDEX
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Phase Transformations In Metals And Alloys - 3ed (Reprint 2015) - David A.Porter (EX) |
Author |
David A. Porter Kenneth E. Easterling Mohamed Y. Sherif
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Cover Price : Rs 795.00
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Imprint : CRC Press ISBN : 9781138031753 YOP : 2017
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Binding : Paperback Total Pages : 520 CD : No
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Expanded and revised to cover developments in the field over the past 17 years, Phase Transformation in Metals and Alloys, Third Edition provides information and examples that better illustrate the engineering relevance of this topic. It supplies a comprehensive overview of specific types of phase transformations, supplemented by practical case studies of engineering alloys.
New in the Third Edition:
• Computer-aided calculation of phase diagrams
• Recent developments in metallic glasses
• The Scheil method of calculating a CCT diagram from a TTT diagram
• Expanded treatment of the nucleation and growth of polygonal ferrite and bainite
• New case studies covering copper precipitation hardening of very low carbon bainitic steel and very fine carbide-free bainite
• Detailed treatment of strain-induced martensite provides a theoretical background to transformation-induced plasticity (TRIP) steels
Adding new case studies, detailed examples, and exercises drawn from current applications, the third edition keeps the previous editions’ popular easy-to -follow style and excellent mix of basic and advanced information, making it ideal for those newcomes to the field. The book’s unique presentation links basic understanding of theory with application in a gradual, easy to follow, yet exciting manner. Based on the author’s teaching notes, the book takes a pedagogical approach and provides examples for applications and problems that can be readily used for exercises.
Contents
Thermodynamics and Phase Diagrams
Diffusion
Crystal Interfaces and Microstructure
Solidification
Diffusional Transformations in Solids
Diffusionless Transformations
Exercises
References
Further Readings
Solutions to Exercises
Index
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Materials for Engineering - 3/ed - John Martin |
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Cover Price : Rs 695.00
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Imprint : Woodhead ISBN : 1845691578 YOP : 2009
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Binding : Paperback Total Pages : 272 CD : No
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About the Book :-
‘Outstanding academic title for 2003 – this title has been selected for its excellence in scholarship and presentation, the significance of its contribution to the field, and because of its important of its subject.’ - Choice magazine
This third edition of what has become a modern classic presents a lively overview of Materials Science which is ideal for students of Structural Engineering. It contains chapters on the structure of engineering materials, the determination of mechanical properties, metals and alloys, glasses and ceramics, organic polymeric materials and composite materials. It contains a section with thought-provoking questions as well as a series of useful appendices. Tabulated data in the body of the text, and the appendices, have been selected to increase the value of Materials for engineering as a permanent source of reference to readers throughout their professional lives. The second edition was awarded Choice’s Outstanding Academic Title award in 2003. This third edition includes new information on emerging topics and updated reading lists.
Clear, concise and authoritative the third edition of Materials for Engineering will confirm its position as an ideal text for undergraduates and a useful reference source on materials structure and properties for the practicing engineer.
Contents :-
Preface to the third edition
Preface to the second edition
Preface to the first edition
Introduction
1. The structure of engineering materials
2. Determination of mechanical properties
3. Metals and alloys
4. Glasses and ceramics
5. Organic polymeric materials
6. Composite materials
Index.
About the Author :-
John Martin is Emeritus Reader in Physical Metallurgy at the University of Oxford and a recipient of the Platinum Medal of the Institute of Materials, Minerals and Mining.
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Textbook of Dermatology, 3rd ed. (9789381162095) - Ramji Gupta |
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Cover Price : Rs 395.00
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Imprint : Ane Books Pvt. Ltd. ISBN : 9381162095 YOP : 2011
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Binding : Paperback Total Pages : 252 CD : No
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About the Book
Dermatology has emerged as an important field in the recent years. Skin diseases account for a large proportion of the cases coming to physicians. The vast array of symptoms and clinical presentations of skin conditions highlight the need for proper diagnosis and appropriate investigations.
This book provides the details of common skin diseases written in a simple language, well supported by clinical photographs taken by the author himself. The expected natural course of the disease and etio-pathogenic mechanisms has been described in each chapter. The possible line of management of the diseases has also been elaborated.
Contents
Structure and Functions of Skin • History and Examination • Hereditary Disorders • Naevi • Nutritional Deficiencies • Metabolic Disorders • Diseases due to Physical Agents • Bacterial Infections • Tuberculosis • Leprosy • Fungal Infections • Viral Infections • Diseases due to Arthropods • Diseases of the Hair • Diseases of the Sebaceous Glands • Diseases of the Sweat Glands • Diseases of the Nails • Disorders of Pigmentation • Allergic Disorders • Auto-immune Disorders • Skin Disorders in Systemic Diseases • Tumours of the Skin • Miscellaneous Disorders • Sexually Transmitted Diseases • Acquired Immuno Deficiency Syndrome (AIDS)• Index
The present book will undoubtedly serve the educational need of the undergraduate students as well as be useful to the general physicians in their day-to-day practice.
About the Author
Dr. Ramji Gupta is a Senior Consultant Dermatologist at Indraprastha Apollo Hospital, He had earlier worked in the Department of Dermato-Venereology, All India Institute of Medical Sciences (AIIMS).
He has passion for writing and research. Among his six books on dermatology, two books co-authored by him, i.e.,Multiple Choice Questions in Dermatology and Venereology (3rd edition) and Illustrated Textbook of Dermatology (3rd edition), are very popular among the undergraduate medical students and practitioners. Recently published, Comprehensive Dermatology and Sexually Transmitted Diseases, is another popular book with undergraduates. Skin and Hair in Health and Diseases: Some Truth, Some Myth (English and Hindi) is a masterpiece for educating general public. He has also authored a book for Homeopaths entitled Textbook of Dermatology for Homeopaths (3rd edition, Spanish). His other recently published book Leucoderma is an exclusive monogram for dermatologists and general public to have in-depth knowledge about the disease of white patches. He has published more than 70 research papers in various national and international journals. His co-pioneering work, dexamethasone-cyclophosphamide pulse therapy (DCP) has proved to be curative for the treatment of pemphigus and other auto-immune disorders. It has been recognized at national and international level.
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FUNDAMENTAL PRINCIPLES OF FIBER REINFORCED COMPOSITES, 2ND ED , INDIAN REPRINT - KEN ASHBEE (EX) |
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Cover Price : Rs 3,995.00
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Imprint : CRC Press ISBN : 9780877629238 YOP : 2013
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Binding : Hardback Total Pages : 440 CD : No
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Contents
- Specific Strength and Specific Modulus - Materials and Processing
- Anisotropy of Stress
- Anisotropy of Elasticity
- Elasticity of Orthotropic Laminates
- Anisotropy of Thermal Expansion
- Stresses in a Plate Arising from the Presence of a Hole
- Fracture and Fracture Mechanics
- Anisotropy of Strength
- Environmental Degradation
- Joining and Repair
- Non-Destructive Evaluation
Index |
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KINETICS OF MATERIALS, INDIAN REPRINT - ROBERT W. BALLUFFI (EX) |
Author |
ROBERT W. BALLUFFI SAMUEL M. ALLEN W.CRAIG CARTER
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Cover Price : Rs 3,995.00
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Imprint : Wiley India ISBN : 9788126540983 YOP : 2013
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Binding : Hardback Total Pages : 672 CD : No
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This textbook, reflecting the hands-on teaching experience of its three authors, evolved from Massachusetts Institute of Technology's first-year graduate curriculum in the Department of Materials Science and Engineering. It discusses key topics collectively representing the basic kinetic processes that cause changes in the size, shape, composition, and atomistic structure of materials. Readers gain a deeper understanding of these kinetic processes and of the properties and applications of materials.
Topics are introduced in a logical order, enabling students to develop a solid foundation before advancing to more sophisticated topics. Kinetics of Materials begins with diffusion, offering a description of the elementary manner in which atoms and molecules move around in solids and liquids. Next, the more complex motion of dislocations and interfaces is addressed. Finally, still more complex kinetic phenomena, such as morphological evolution and phase transformations, are treated.
Throughout the textbook, readers are instilled with an appreciation of the subject's analytic foundations and, in many cases, the approximations commonly used in the field. The authors offer many extensive derivations of important results to help illuminate their origins. While the principal focus is on kinetic phenomena in crystalline materials, select phenomena in noncrystalline materials are also discussed. In many cases, the principles involved apply to all materials.
Exercises with accompanying solutions are provided throughout Kinetics of Materials, enabling readers to put their newfound knowledge into practice. In addition, bibliographies are offered with each chapter, helping readers to investigate specialized topics in greater detail. Several appendices presenting important background material are also included.
With its unique range of topics, progressive structure, and extensive exercises, this classroom-tested textbook provides an enriching learning experience for first-year graduate students.
Contents
Preface.
Acknowldegments.
Notation.
Symbol –Roman.
Symbol–Greek.
1. Introduction.
PART I: MOTION OF ATOMS AND MOLECULES BY DIFFUSION.
2. Irreversible Thermodynamics: Coupled Forces and Fluxes.
3. Driving Forces and Fluxes for Diffusion.
4. The Diffusion Equation.
5. Solutions to the Diffusion Equation.
6. Diffusion In Multi-Component Systems.
7. Atomic Models for Diffusion.
8. Diffusion in Cerystals.
9. Diffusion Along Crystal Imperfections.
10. Diffusion in Noncrystalline Materials.
PART II: MOTION OF DISLOCATIONS AND INTERFACES.
11. Motion of Dislocations.
12. Motion of Crystalline Surfaces.
13. Motion of Crystalline Interfaces.
PART III MORPHOLOGICAL EVOLUTION DUE TO CAPILLARY AND APPLIED MECHANICAL FORCES.
14. Surface Evolution due to Capillary Forces.
15. Coarsening due to Capillary Forces.
16. Morphological Evolution, Diffusional Creep, and Sintering.
PART IV: PHASE TRANSFORMATIONS.
17. General Features of Phase Transformations.
18. Spinodal and Order-Disorder Transformations.
19. Nucleation.
20. Growth of Phases in Concentration and Thermal Fields.
21. Concurrent Nucleation and Growth.
22. Solidification.
23. Precipitation.
24. Martensitic Transformations.
Appendix A: Densities, Fractions, and Atomic Volumes of Components.
Appendix B: Structure of Crystalline Interfaces.
Appendix C: Capillarity and Mathematics of Space Curves and Interfaces.
Illustration Credits.
Cited Author Index.
Figure Index.
Topic Index.
ROBERT W. BALLUFFI, ScD, is Professor of Physical Metallurgy, Emeritus, Department of Materials Science and Engineering, Massachusetts Institute of Technology.
SAMUEL M. ALLEN, PhD, is Professor of Physical Metallurgy, Department of Materials Science and Engineering, Massachusetts Institute of Technology.
W. CRAIG CARTER, PhD, is Professor of Materials Science and Engineering, Department of Materials Science and Engineering, Massachusetts Institute of Technology.
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SIMPLIFIED MECHANICS AND STRENGTH OF MATERIALS, 6TH ED, INDIAN REPRINT - JAMES AMBROSE (EX) |
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Cover Price : Rs 3,495.00
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Imprint : Wiley India ISBN : 9788126537631 YOP : 2013
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Binding : Hardback Total Pages : 430 CD : No
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This updated edition of the classic Parker/Ambrose guide introduces the basics of applied mechanics and strength of materials by combining clear explanations with fundamental practice exercises. Generously supplemented with more than 250 two- and three-dimensional illustrations, this book emphasizes visualizing concepts rather than rote learning and complex mathematics. Simplified Mechanics and Strength of Materials, Sixth Edition features:
* A study of indeterminate structures and ultimate strength resistance of structures, as well as combined forces and stresses
* Up-to-date code and technology information
* Analysis of trusses, beams, compression members, connectors for structural steel, retaining walls, and rigid frames
* An examination of noncoplanar force systems, stress and deformation, and properties of sections
* Exercise problems, with answers, that emphasize direct problem solving using basic concepts, simple analytical formulas, and logical procedures
Whether used alone or in conjunction with Simplified Engineering for Architects and Builders, Ninth Edition, this book is a fundamental resource for students and professionals in architecture, landscape architecture, construction, and civil engineering.
Contents
Preface to the Sixth Edition.
Preface to the First Edition.
Introduction.
1. Structures: Purpose and Function.
2. Forces and Force Actions.
3. Analysis of Trusses.
4. Analysis of Beams.
5. Continuous and Restrained Beams.
6. Retaining Walls.
7. Rigid Frames.
8. Noncoplanar Force Systems.
9. Properties of Sections.
10.Stress and Deformation.
11.Stress and Strain in Beams.
12.Compression Members.
13.Combined Forces and Stresses.
14.Connections for Structural Steel.
15.Reinforced Concrete Beams.
References.
Answers to Selected Exercise Problems.
Index.
JAMES AMBROSE is Editor of the Parker/Ambrose Series of Simplified Design Guides. He has practiced as an architect in California and Illinois, and as a structural engineer in Illinois. He recently retired as a professor of architecture at the University of Southern California.
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