Book Title:-A First Course in the Finite Element Method

Author :-Daryl Logan

ISBN :-9788131517307

Price :-INR 750

Pages :-908

Edition :-5

Binding :-Paperback

Imprint :-Course Technology

© Year :-2012

Overview :

'A FIRST COURSE IN THE FINITE ELEMENT METHOD provides a simple, basic approach to the course material that can be understood by both undergraduate and graduate students without the usual prerequisites (i.e. structural analysis). The book is written primarily as a basic learning tool for the undergraduate student in civil and mechanical engineering whose main interest is in stress analysis and heat transfer. The text is geared toward those who want to apply the finite element method as a tool to solve practical physical problems.

Table Of Content :

'1. INTRODUCTION 2. INTRODUCTION TO THE STIFFNESS (DISPLACEMENT) METHOD 3. DEVELOPMENT OF TRUSS EQUATIONS 4. DEVELOPMENT OF BEAM EQUATIONS 5. FRAME AND GRID EQUATIONS 6. DEVELOPMENT OF THE PLANE STRESS AND STRAIN STIFFNESS EQUATIONS 7. PRACTICAL CONSIDERATIONS IN MODELING: INTERPRETING RESULTS AND EXAMPELS OF PLANE STRESS/STRAIN ANALYSIS 8. DEVELOPMENT OF THE LINEAR-STRAIN TRAINGLE EQUATIONS 9. AXISYMMETRIC ELEMENTS 10. ISOPARAMETRIC FORMULATION 11. THREE-DIMENSIONAL STRESS ANALYSIS 12. PLATE BENDING ELEMENT 13. HEAT TRANSFER AND MASS TRANSPORT 14. FLUID FLOW IN POROUS MEDIA AND THROUGH HYDRAULIC NETWORKS

Book Title:-CNC Programming: Principles & Applications

Author :-Mike Mattson

ISBN :-9788131519004

Price :-INR 625

Pages :-420

Edition :-1

Binding :-Paperback

Imprint :-Delmar

© Year :-2013

Overview :

'A proven guide to computer-aided machining, CNC Programming: Principles and Applications has been revised to give readers the most up-to-date information on G- and M- code programming available today. This edition retains the book's comprehensive yet concise approach, offering an overview of the entire manufacturing process, from planning through code writing and setup. is the new edition includes expanded coverage of tooling, manufacturing processes, print reading, quality control, and precision measurement. Designed to meet the needs of both beginning machinists and seasoned machinists making the transition to the abstract realm of CNC, this book is a valuable resource that will be referred to again and again.

Table Of Content :

'Preface. 1. Computer Numerical Control of Machine Tools. 2. Measurement and Quality. 3. The NC Programming Process. 4. NC Tooling and Machining Processes. 5. Tool and Workpiece set-up. 6. Programming Concepts and Job Planning. 7. Codes for Positioning and Milling. 8. Basic Codes to Control Machine Functions. 9. Hole Making Cycles. 10. Tool Radius Compensation. 11. Advanced Programming Concepts. 12. Lathe Programming. 13. CAD/CAM. 14. Mathematics for NC Programming. Appendix A G &amp M Codes Reference. Appendix B Reference Information. Glossary.

Book Title:-Engineering Mechanics

Author :-Andrew Pytel

ISBN :-9788131515419

Price :-INR 825

Pages :-1116

Edition :-3

Binding :-Paperback

Imprint :-CL Engineering

© Year :-2011

Overview :

'This edition of Engineering Mechanics: Statics and Dynamics written by nationally regarded authors Andrew Pytel and Jaan Kiusalaas, provides students with solid coverage of material without the overload of extraneous detail. The extensive teaching experience of the authorship team provides first-hand knowledge of the learning skill levels of today?s student which is reflected in the text through the pedagogy and the tying together of real world problems and examples with the fundamentals of Engineering Mechanics. Designed to teach students how to effectively analyze problems before plugging numbers into formulas, students benefit tremendously as they encounter real life problems that may not always fit into standard formulas. The text discusses the application of the fundamentals of Newtonian dynamics and applies them to real-world engineering problems.

Table Of Content :

'PART I: STATICS 1. Introduction to Statics 2. Basic Operations with Force Systems 3. Resultants of Force Systems 4. Coplanar Equilibrium Analysis 5. Three-Dimensional Equilibrium 6. Beams and Cables 7. Dry Friction 8. Centroids and Distributed Loads 9. Moments and Products of Inertia of Areas 10. Virtual Work and Potential Energy PART II: DYNAMICS 11. Introduction to Dynamics 12. Dynamics of a Particle: Rectangular Coordinates 13. Dynamics of a Particle: Curvilinear Coordinates 14. Work-Energy and Impulse-Momentum Principle for a Particle 15. Dynamics of Particle Systems 16. Planar Kinematics of Rigid Bodies 17. Planar Kinetics of Rigid Bodies: Force-Mass-Acceleration Method 18. Planar Kinetics of Rigid Bodies: Work-Energy and Impulse-Momentum Methods 19. Rigid-Body Dynamics in Three Dimensions 20. Vibrations Appendix A. Numerical Integration Appendix B. Finding Roots of Functions Appendix C. Densities of Common Materials Appendix D. Proof of the Relative Velocity Equation for Rigid-Body Motion Appendix E. Numerical Solution of Differential Equations Appendix F. Mass Moments and Products of Inertia Answers to Even-Numbered Problem

Book Title:-Engineering Mechanics (As per AICTE Model Curriculum 2018)

Author :-Manoj K. Harbola

ISBN :-9788131518298

Price :-INR 550

Pages :-608

Edition :-2

Binding :-Paperback

Imprint :-Cengage Learning India

© Year :-2012

Overview :

'Engineering Mechanics (2e) is designed to serve as a textbook for a single-semester undergraduate course on engineering mechanics. It provides a lucid introduction to both statics and dynamics.Beginning with a review of vector algebra and Newton's laws, the book goes on to cover concepts of statics, such as equilibrium of bodies, plane trusses, friction, and the method of virtual work, employing both the scalar and the vector approach. This is followed by an extensive discussion of topics in dynamics, including momentum, work and energy, rotational dynamics, and harmonic oscillators. A chapter on non-inertial frames completes the utility of this book as a first-level text on engineering mechanics.Written in an easy-to-understand manner, the book includes a large number of solved examples which illustrate problem-solving methodology. A summary at the end of each chapter reviews the key concepts discussed in the chapter. An extensive set of end-of-chapter exercises, which include both long problems and objective-type questions, are supplemented by conceptual checkpoints interspersed throughout the text.

Table Of Content :

' Equilibrium of Bodies Review of Newton's Laws of Motion and Vector Algebra Plane Trusses Friction Properties of Plane Surfaces Method of Virtual Work Motion of Particles Momentum Work and Energy in One Dimension Work and Energy in Three Dimensions Rotational Dynamics I: Dynamics of Rigid Bodies and Angular Momentum Rotational Dynamics II: Rotation About a Fixed Axis Rotational Dynamics III: General Three-Dimensional Rotation, Angular Velocity, and Angular Momentum Simple Harmonic Oscillator Motion in Non-inertial Frames Appendix A Dimensional Analysis Appendix B Some Standard Mathematical Formulae Appendix C Solutions of Some Standard Linear Differential Equations of up to Second Order

Book Title:-Engineering Mechanics: Dynamics

Author :-Robert W. Soutas-Little | Davis Catherine A. Ingraham | Daniel J. Inman | Daniel S. Balint

ISBN :-9788131514092

Price :-INR 499

Pages :-474

Edition :-1

Binding :-Paperback

Imprint :-CL Engineering

© Year :-2011

Overview :

'Focusing on the conceptual understanding of mechanics, this exciting new text addresses developments in the methods of analyzing mechanics problems. It fully incorporates the highly sophisticated computational software packages currently available to students. The text provides transition material to higher level courses, as well as a wealth of problems to foster understanding

Table Of Content :

'1. Kinematics of a Particle 2. Kinetics of Particles 3. Work?Energy and Impulse?Momentum First Integrals of Motion 4. System of Particles 5. Kinematics of Rigid Bodies 6. Dynamics of Rigid Bodies in Plane Motion 7. Power, Work, Energy, Impulse, and Momentum of a Rigid Body 8. Three-Dimensional Dynamics of Rigid Bodies 9. Vibration Appendix A: Mass Moments of Inertia Answers to Selected Problems Index

Book Title:-Engineering Mechanics: Statics

Author :-Robert W. Soutas-Little | Daniel S. Balint | Daniel J. Inman

ISBN :-9788131514108

Price :-INR 499

Pages :-412

Edition :-1

Binding :-Paperback

Imprint :-CL Engineering

© Year :-2011

Overview :

'Focusing on the conceptual understanding of mechanics, this exciting new text addresses developments in the methods of analyzing mechanics problems. It fully incorporates the highly sophisticated computational software packages currently available to students. The text provides transition material to higher level courses, as well as a wealth of problems to foster understanding.

Table Of Content :

'1. Introduction 2. Vector Analysis 3. Particle Equilibrium 4. Rigid Bodies: Equivalent Force Systems 5. Distributed Forces: Centroids and Center of Gravity 6. Equilibrium of Rigid Bodies 7. Analysis of Structures 8. Internal Forces in Structural Members 9. Moments of Inertia 10. Friction 11. Virtual Work Appendix A: Solution of Systems of Linear Equations Answers to Selected Problems Index

Book Title:-Essentials of Materials Science & Engineering

Author :-Pradeep P Fulay | Donald R. Askeland

ISBN :-9788131520703

Price :-INR 599

Pages :-624

Edition :-2

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2013

Overview :

'This text provides students with a solid understanding of the relationship between the structure, processing, and properties of materials. Authors Donald Askeland and Pradeep Fulay teach the fundamental concepts of atomic structure and materials behaviors and clearly link them to the &quotmaterials&quot issues that students will have to deal with when they enter the industry or graduate school (e.g. design of structures, ion of materials, or materials failures). While presenting fundamental concepts and linking them to practical applications, the authors emphasize the necessary basics without overwhelming the students with too much of the underlying chemistry or physics. The book covers fundamentals in an integrated approach that emphasizes applications of new technologies that engineered materials enable. New and interdisciplinary developments in materials field such as nanomaterials, smart materials, micro-electro-mechanical (MEMS) systems, and biomaterials are also discussed.

Table Of Content :

'1. Introduction to Materials Science and Engineering Introduction / What is Materials Science and Engineering? / Classification of Materials / Functional Classification of Materials / Classification of Materials Based on Structure / Environmental and Other Effects / Materials Design and Selection / Summary / Glossary / Problems 2. Atomic Structure Introduction / The Structure of Materials: Technological Relevance / The Structure of the Atom / The Electronic Structure of the Atom / The Periodic Table / Atomic Bonding / Binding Energy and Interatomic Spacing / Summary / Glossary / Problems 3. Atomic and Ionic Arrangements Introduction / Short-Range Order Versus Long-Range Order / Amorphous Materials: Principles and Technological Applications / Lattice, Unit Cells, Basis, and Crystal Structure / Allotropic or Polymorphic Transformations / Points, Directions, and Planes in the Unit Cell / Interstitial Sites / Crystal Structures of Ionic Materials / Covalent Structures / Diffraction Techniques for Crystal Structure Analysis / Summary / Glossary / Problems 4. Imperfections in the Atomic and Ionic Arrangements Introduction / Point Defects / Other Point Defects / Dislocations / Significance of Dislocations / Schmid''s Law / Influence of Crystal Structure / Surface Defects / Importance of Defects / Summary / Glossary / Problems 5. Atomic and Ionic Movements in Materials Introduction / Applications of Diffusion / Stability of Atoms and Ions / Mechanisms for Diffusion / Activation Energy for Diffusion / Rate of Diffusion (Fick''s First Law) / Factors Affecting Diffusion / Permeability of Polymers / Composition Profile (Fick''s Second Law) / Diffusion and Materials Processing / Summary / Glossary / Problems 6. Mechanical Properties and Behavior Introduction / Technological Significance / Terminology for Mechanical Properties / The Tensile Test: Use of the Stress-

Strain Diagram / Properties Obtained from the Tensile Test / True Stress and True Strain / The Bend Test for Brittle Materials / Hardness of Materials / Strain Rate Effects and Impact Behavior / Properties Obtained from the Impact Test / Summary / Glossary / Problems 7. Fracture Mechanics Introduction / Fracture Mechanics / The Importance of Fracture Mechanics / Microstructural Features of Fracture in Metallic Materials / Microstructural Features of Fractures in Ceramics, Glasses, and Composites / Weibull Statistics for Failure Strength Analysis / Fatigue / Results of the Fatigue Test / Application of Fatigue Testing / Creep, Stress Rupture, and Stress Corrosion / Evaluation of Creep Behavior / Summary / Glossary / Problems 8. Strain Hardening and Annealing Introduction / Relationship of Cold Working to the Stress-Strain Curve / Strain-Hardening Mechanisms / Properties Versus Percent Cold Work / Microstructure, Texture Strengthening, and Residual Stresses / Characteristics of Cold Working / The Three Stages of Annealing / Control of Annealing / Annealing and Materials Processing / Hot Working / Summary / Glossary / Problems 9. Principles of Solidification Introduction / Technological Significance / Nucleation / Growth Mechanisms / Cooling Curves / Cast Structure / Solidification Defects / Casting Processes for Manufacturing Components / Continuous Casting, Ingot Casting, and Single Crystal Growth / Solidification of Polymers and Inorganic Glasses / Joining of Metallic Materials / Summary / Glossary / Problems 10. Solid Solutions and Phase Equilibrium Introduction / Phases and the Phase Diagram / Solubility and Solid Solutions / Conditions for Unlimited Solid Solubility / Solid-Solution Strengthening / Isomorphous Phase Diagrams / Relationship Between Properties and the Phase Diagram / Solidification of a Solid-Solution Alloy / Summary / Glossary / Problems 11. Dispersion Strengthening and Eutectic Phase Diagram Introduction / Principles and Examples of Dispersion Strengthening / Intermetallic Compounds / Phase Diagrams Containing Three-Phase Reactions / The Eutectic Phase Diagram / Strength of Eutectic Alloys / Eutectics and Materials Processing / Nonequilibrium Freezing in the Eutectic System / Summary / Glossary / Problems 12. Dispersion Strengthening by Phase Transformations and Heat Treatment Introduction / Nucleation and Growth in Solid-State Reactions / Alloys Strengthened by Exceeding the Solubility Limit / Age or Precipitation Hardening / Applications of Age-Hardened Alloys / Microstructural Evolution in Age or Precipitation Hardening / Effects of Aging Temperature and Time / Requirements for Age Hardening / Use of Age-Hardenable Alloys at High Temperatures / The Eutectoid Reaction / Controlling the Eutectoid Reaction / The Martensitic Reaction and Tempering / Summary / Glossary / Problems 13. Heat Treatment of Steels and Cast Irons Introduction / Designation and Classifications for Steels / Simple Heat Treatments / Isothermal Heat Treatments / Quench and Temper Heat Treatments / Effect of Alloying Elements / Application of Hardenability / Special Steels / Surface Treatments / Weldability of Steel / Stainless Steels / Cast Irons / Summary / Glossary / Problems 14. Nonferrous Alloys Introduction / Aluminum Alloys / Magnesium and Beryllium Alloys / Copper Alloys / Nickel and Cobalt Alloys / Titanium Alloys / Refractory and Precious Metals / Summary / Glossary / Problems 15. Ceramic Materials Introduction / Applications of Ceramics / Properties of Ceramics / Synthesis and Processing of Ceramic Powders / Characteristics of Sintered Ceramics / Inorganic Glasses / Glass-Ceramics / Processing and Applications of Clay Products / Refractories / Other Ceramic Materials / Summary / Glossary / Problems 16. Polymers Introduction / Classification of Polymers / Addition and Condensation Polymerization / Degree of Polymerization / Typical Thermoplastics / Structure-Property Relationships in Thermoplastics / Effect of Temperature on Thermoplastics / Mechanical Properties of Thermoplastics / Elastomers (Rubbers) / Thermosetting Polymers / Adhesives / Polymer Processing and Recycling / Summary / Glossary / Problems 17. Composites: Teamwork and Synergy in Materials Introduction / Dispersion-Strengthened Composites / Particulate Composites / Fiber-Reinforced Composites / Characteristics of Fiber-Reinforced Composites / Manufacturing Fibers and Composites / Fiber-Reinforced Systems and Applications / Laminar Composite Materials / Examples and Applications of Laminar Composites / Sandwich Structures / Summary / Glossary / Problems Appendix A: Selected Physical Properties of Metals Appendix B: The Atomic and Ionic Radii of Selected Elements Answers to Selected Problems Index

Book Title:-Heat and Mass Transfer

Author :-Altamush Siddiqui

ISBN :-9788131527955

Price :-INR 575

Pages :-688

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2015

Overview :

'This book on Heat and Mass Transfer meant for the undergraduate students of mechanical engineering explains the core concepts in detail using a lot of diagrams showing flow paths for mass, energy, and work transfer rates. Mathematical analyses of the systems have been done from the basic principles in steps, with the equations well elaborated. Effect of the design parameters on performance of the system have been presented graphically. The content of this book not only covers the syllabus taught in most of the engineering colleges but also the syllabus of the competitive examinations such as GATE and Engineering Services. Some special topics are included in the book, which will help students undertake mini-projects leading to the research and design-oriented jobs and also help in pursuing higher education and in facing national and international level competitions. Although this book is written for the students of mechanical engineering, it is also useful to other branches of engineering like electrical, chemical and petrochemical.

Table Of Content :

'1. Basic Concepts 2. Conduction Heat Transfer 3. Conduction Heat Transfer Solutions 4. Convective Heat Transfer 5. Dimensional Analysis and Empirical Equations 6. Heat Transfer During Phase Change 7. Radiation Heat Transfer 8. Heat Exchangers 9. Mass Transfer 10. Some Advanced Topics

Book Title:-Industrial Engineering & Management

Author :-N.V.S. Raju

ISBN :-9788131519486

Price :-INR 799

Pages :-666

Edition :-1

Binding :-Paperback

Imprint :-Cengage Learning India

© Year :-2013

Overview :

'This book, Industrial Engineering and Management, provides various concepts and theoretical and practical knowledge related to the area of industrial engineering and management. All the pertinent fields of management, such as production management, organization, quality management, materials management, project management, marketing, human resource management, strategic management, etc., are discussed to help develop the required skills among the students to work in this area. The book also creates awareness about the historical developments in the various fields of industrial engineering.

Table Of Content :

'1. Scientific Management History, Concept, and Evolution 2. Schools of Management Thought Classical Theories 3. Schools of Management Thought Neoclassical Theories 4. Schools of Management Thought Modern Theories 5. Functions of Management 6. Organization An Overview 7. Organization Structure Classical Views 8. Modern Organization Structures 9. Departmentation 10. Production Systems 11. Production Planning and Control 12. Facility Planning 13. Plant Layout 14. Industrial Engineering and Methods Management An Outline 15. Work Study An Overview 16. Method Study 17. Time Study?Work Measurement 18. Ergonomics 19. Materials Management Concepts and Classification 20. Inventory Models 21. Purchase Management 22. Stores Management 23. Modern Techniques in Materials Management 24. Quality Concepts 25. Statistical Quality Control (SQC) and Statistical Process Control (SPC) 26. Acceptance Sampling 27. Emerging Concepts in Quality 28. Project Management?Fundamentals of Network Analysis 29. Critical Path Method (CPM) 30. Cost Analysis?Project Crashing 31. Program Evaluation and Review Technique (PERT) 32. The Fundamentals of Human Resource Management 33. Training and Development, Job Evaluation and Merit Rating 34. Wage and Wage Incentives 35. Grievance Handling, Discipline, and Welfare 36. Marketing Management Basic Concepts 37. Product Lifecycle 38. Marketing Mix 39. Strategic Management An Overview 40. Corporate Planning 41. Strategy Formulation and Implementation 42. Environmental Scanning 43. Business Process Management BPO, BPR, MIS, and DSS 44. Performance Management PM, BSC, CMM, and PCMM 45. Value Management VCA, MUDA, 5S Kaizen, and QFD Appendices Index

Book Title:-Mechanics of Fluids

Author :-David C Wiggert | Bassem H Ramadan | Merle C. Potter

ISBN :-9788131518465

Price :-INR 999

Pages :-816

Edition :-4

Binding :-Paperback

Imprint :-CL Engineering

© Year :-2012

Overview :

'MECHANICS OF FLUIDS presents fluid mechanics in a manner that helps students gain both an understanding of, and an ability to analyze the important phenomena encountered by practicing engineers. The authors succeed in this through the use of several pedagogical tools that help students visualize the many difficult-to-understand phenomena of fluid mechanics. Explanations are based on basic physical concepts as well as mathematics which are accessible to undergraduate engineering students. This fourth edition includes a Multimedia Fluid Mechanics DVD-ROM which harnesses the interactivity of multimedia to improve the teaching and learning of fluid mechanics by illustrating fundamental phenomena and conveying fascinating fluid flows.

Table Of Content :

1. Basic Considerations.2. Fluid Statics.3. Introduction To Fluids In Motion.4. The Integral Forms Of The Fundamental Laws.5. The Differential Forms Of The Fundamental Laws.6. Dimensional Analysis And Similitude.7. Internal Flows.8. External Flows.9. Compressible Flow.10. Flow In Open Channels.11. Flows In Piping Systems.12. Turbomachinery.13. Measurements In Fluid Mechanics.14. Computational Fluid Dynamics.Appendix A. Units And Conversions And Vector RelationshipsAppendix B. Fluid PropertiesAppendix C. Properties Of Areas And VolumesAppendix D. Compressible-Flow Tables For AirAppendix E. Numerical Solutions For Chapter 10Appendix F. Numerical Solutions For Chapter 11

Book Title:-Mechanics of Materials

Author :-Andrew Pytel

ISBN :-9788131529478

Price :-INR 599

Pages :-560

Edition :-2

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2012

Overview :

'The second edition of MECHANICS OF MATERIALS by Pytel and Kiusalaas is a concise examination of the fundamentals of Mechanics of Materials. The book maintains the hallmark organization of the previous edition as well as the time-tested problem solving methodology, which incorporates outlines of procedures and numerous sample problems to help ease students through the transition from theory to problem analysis. Emphasis is placed on giving students the introduction to the field that they need along with the problem-solving skills that will help them in their subsequent studies. This is demonstrated in the text by the presentation of fundamental principles before the introduction of advanced/special topics.

Table Of Content :

'1. STRESS. Introduction. Analysis of Internal Forces Stress. Axially Loaded Bars. Shear Stress. Bearing Stress. 2. STRAIN. Introduction. Axial Deformation Stress-Strain Diagram. Axially Loaded Bars. Generalized Hooke's Law. Statically Indeterminate Problems. Thermal Stresses. 3. TORSION. Introduction. Torsion of Circular Shafts. Torsion of Thin-Walled Tubes. 4. SHEAR AND MOMENT IN BEAMS. Introduction. Supports and Loads. Shear-Moment Equations and Shear-Moment Diagrams. Area Method for Drawing Shear-Moment Diagrams. Moving Loads. 5. STRESSES IN BEAMS. Introduction. Bending Stress. Economic Sections. Shear Stress in Beams. Design for Flexure and Shear. Design of Fasteners in Built-up Beams. 6. DEFLECTION OF BEAMS. Introduction. Double Integration Method. Double Integration Using Bracket Functions. Moment-Area Method. Method of Superposition. 7. STATICALLY INDETERMINATE BEAMS. Introduction. Double-Integration Method. Double-Integration Using Bracket Functions. Moment-Area Method. Method of Superposition. 8. STRESSES DUE TO COMBINED LOADS. Introduction. Thin-Walled Pressure Vessels. Combined Axial and Lateral Loads. State of Stress at a Point. Transformation of Plane Stress. Mohr's Circle for Plane Stress. Absolute Maximum Shear Stress. Applications of Stress Transformation to Combined Loads. Transformation of Strain: Mohr's Circle for Strain. The Strain Rosette. Relationship Between Shear Modulus and Modulus of Elasticity. 9. COMPOSITE BEAMS. Introduction. Flexure Formula for Composite Beams. Shear Stress and Deflection in Composite Beams. Reinforced Concrete Beams. 10. COLUMNS. Introduction. Critical Load. Discussion of Critical Loads. Design Formulas for Intermediate Columns. Eccentric Loading: Secant Formula. 11. ADDITIONAL BEAM TOPICS. Introduction. Shear Flow in Thin-Walled Beams. Shear Center. Unsymmetrical Bending. Curved Beams. 12. SPECIAL TOPICS. Introduction. Energy Methods. Dynamic Loading. Theories of Failure. Stress Concentration. Fatigue under Repeated Loading. 13. INELASTIC

ACTION. Introduction. Limit Torque. Limit Moment. Residual Stresses. Limit Analysis. APPENDIX A: REVIEW OF PROPERTIES OF PLANE AREAS. APPENDIX B: TABLES.

Book Title:-Mechatronics System Design

Author :-Richard A. Kolk | Devdas Shetty

ISBN :-9788131518281

Price :-INR 525

Pages :-516

Edition :-2

Binding :-Paperback

Imprint :-CL Engineering

© Year :-2012

Overview :

'This text by Shetty and Kolk, blends the pertinent aspects of mechatronicssystem modeling, simulation, sensors, actuation, real-time computer interfacing, and controlinto a single unified result suitable for use in the college-level mechatronic curriculum. Students are introduced to all the topics needed to develop a good understanding of the basic principles used in mechatronics technology through the use of examples, problems and case studies, all of which can be quickly and affordably assembled and investigated in laboratory settings. Core aspects are combined with practical industrial applications and are presented in an optimal way for understanding. The book features extensive coverage of the modeling and simulation of physical systems made possible by block-diagrams, the modified analogy approach to modeling, and state-of-the-art visual simulation software. A collection of case studies drawn from a variety of industries (complete with parts, lists, setup, and instructions) are used to support the authors' applied, design-oriented approach. Readers of this text will be equipped with all the tools necessary to plan, test, and implement a well-designed mechatronic system.

Table Of Content :

'1. Mechatronics System Design 2. Modeling And Simulation Of Physical Systems 3. Sensors And Transducers 4. Actuating Devices 5. System Control?Logic Methods 6. Signals, Systems, And Controls 7. Signal Conditioning And Real Time Interfacing 8. Case Studies Appendix 1 Data Acquisition Cards Appendix 2 Strain Gauge Experiment

Book Title:-The Science and Engineering of Materials

Author :-K Balani | Donald R. Askeland

ISBN :-9788131516416

Price :-INR 725

Pages :-956

Edition :-6

Binding :-Paperback

Imprint :-CL Engineering

© Year :-2012

Overview :

'The Science and Engineering of Materials describes the foundations of materials science as predicated upon the structure-processing-properties paradigm with the goal of providing fundamental science, so that the reader may understand basic materials phenomena, and synergistic engineering to prepare a wide range of students for competent professional practice. The wealth of material provided in this book provides a general overview, concentrates on mechanical behavior, and focuses on physical properties of materials. This book will prove to be a useful reference also for advanced courses in manufacturing, materials, design, or materials ion.

Table Of Content :

'1.Introduction to Materials Science and Engineering 2. Atomic Structure 3. Atomic and Ionic Arrangements 4. Imperfections in the Atomic and lonic Arrangements 5. Atom and Ion Movements in Materials 6. Thermal Properties of Materials 7. Principles of Solidification 8. Solid Solutions and Phase Equilibrium 9. Dispersion Strengthening and Eutectic Phase Diagrams 10. Dispersion Strengthening by Phase Transformations and Heat Treatment 11. Mechanical Properties of Materials 12. Failure of Materials: Fracture, Fatigue and Creep 13. Strain Hardening and Annealing 14. Heat Treatment of Steels and Cast Irons 15. Corrosion and Wear 16. Polymers 17. Nonferrous Alloys 18. Ceramic Materials 19. Composites: Teamwork and Synergy in Materials 20. Electronic Materials 21. Magnetic Materials 22. Photonic Materials 23. Construction Materials Appendix A: Selected Physical Properties of Metals Appendix B: The Atomic and lonic Radii of Selected Elements Appendix C: Biomaterial

Book Title:-Thermodynamics for Engineers with MindTap

Author :-Kenneth A. Kroos | Merle C. Potter

ISBN :-9788131520468

Price :-INR 799

Pages :-596

Edition :-1

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2015

Overview :

Table Of Content :

PART I. CONCEPTS AND BASIC LAWS.

1. Basic Concepts and Systems of Units.

1.1. Introduction.

1.2. Dimensions and Units.

1.3. Properties, Processes, and Equilibrium.

1.4. Pressure.

1.5. Temperature.

1.6. Energy.

1.7. Summary.

2. Properties of Pure Substances.

2.1. Phases of a Substance.

2.2. Internal Energy and Enthalpy.

2.3. Refrigerants.

2.4. Ideal Gas Law.

2.5. Real Gas Equations of State.

2.6. Internal Energy and Enthalpy of Ideal Gases.

2.7. Specific Heats of Liquids and Solids.

2.8. Summary.

3. The First Law for Systems.

3.1. Work.

3.2. Heat Transfer.

3.3. Problem Solving Method.

3.4. The First Law Applied to Systems.

3.5. The First Law Applied to Various Processes.

3.6. Cycles.

3.7. Summary.

4. The First Law Applied to Control Volumes.

4.1. The Conservation of Mass for Control Volumes.

4.2. The First Law for Control Volumes.

4.3. Unsteady Flow.

4.4. Devices Combined into Cycles.

4.5. Summary.

5. The Second Law of Thermodynamics.

5.1. Second Law Concepts.

5.2. Statements of The Second Law of Thermodynamics.

5.3. Cycle Performance Parameters.

5.4. The Carnot Cycle.

5.5. Summary.

6. Entropy.

6.1. Inequality of Clausius.

6.2. Entropy.

6.3. of an Entropy Change in Substances.

6.4. Entropy Changes for a Control Volume.

6.5. Isentropic Efficiency.

6.6. Exergy (Availability) and Irreversibility.

6.7. Summary.

7. Thermodynamic Relations.

7.1. The Maxwell Relations.

7.2. The Clapeyron Equation.

7.3. Relationships for Internal Energy, Enthalpy, Entropy, and Specific Heats.

7.4. The Joule-Thompson Coefficient.

7.5. Real Gas Effects.

7.6. Summary.

PART II. APPLICATIONS.

8. The Rankine Power Cycle.

8.1. Energy Sustainability.

8.2. The Rankine Cycle.

8.3. Modified Rankine Cycles.

8.4. Cogeneration Cycles.

8.5. Losses in Power Plants.

8.6. Summary.

9. Gas Power Cycles.

9.1. Air-Standard Analysis.

9.2. Reciprocating Engine Terminology.

9.3. The Otto Cycle.

9.4. The Diesel Cycle.

9.5. Other Gas Power Cycles.

9.6. Brayton Cycle.

9.7. The Combined Brayton-Rankine Cycle.

9.8. Summary.

10. Refrigeration Cycles.

10.1. The Vapor Compression-Refrigeration Cycle.

10.2. Cascade Refrigeration Systems.

10.3. Absorption Refrigeration.

10.4. Gas Refrigeration Systems.

10.5. Summary.

11. Mixtures and Psychrometrics.

11.1. Gas Mixtures.

11.2. Air-Vapor Mixture and Psychrometry.

11.3. Air-Conditioning Processes.

11.4. Summary.

12. Combustion.

12.1. Introduction.

12.2. Combustion Reactions.

12.3. The Enthalpy of Formation and the Enthalpy of Combustion.

12.4. Adiabatic Flame Temperature.

12.5. Actual Flame Temperature.

12.6. Equilibrium Reactions.

12.7. Summary.

PART III, CONTEMPORARY TOPICS.

13. Alternative Energy Conversion.

13.1. Biofuels.

13.2. Solar Energy.

13.3. Fuel Cells.

13.4. Thermoelectric Generators.

13.5. Geothermal Energy.

13.6. Wind Energy.

13.7. Ocean and Hydroelectric Energy.

13.8. Summary.

14. Thermodynamics of Living Organisms.

14.1. Energy Conversion in Plants.

14.2. Energy Conversion in Animals.

14.3. Generation of Biological Work.

14.4. Summary.

Appendix.

A Conversion of Units.

B Material Properties.

C Steam Tables &ndash SI Units.

Steam Tables &ndash English Units.

D Thermodynamic Properties of R134a&ndash SI Units.

Thermodynamic Properties of R134a &ndash English Units.

E Properties of Ammonia&ndash SI Units.

F Ideal-Gas Tables &ndash SI Units.

G Psychrometric Chart.

H Compressibility Chart.

I Enthalpy Departure Charts.

J Entropy Departure Charts.

Index

Book Title:-Design of Fluid Thermal Systems with MindTap

Author :-William S. Janna

ISBN :-9788131520475

Price :-INR 799

Pages :-666

Edition :-4

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2015

Overview :

This book is designed to serve senior-level engineering students taking a capstone design course in fluid and thermal systems design. It is built from the ground up with the needs and interests of practicing engineers in mind the emphasis is on practical applications. The book begins with a discussion of design methodology, including the process of bidding to obtain a project, and project management techniques. The text continues with an introductory overview of fluid thermal systems (a pump and pumping system, a household air conditioner, a baseboard heater, a water slide, and a vacuum cleaner are among the examples given), and a review of the properties of fluids and the equations of fluid mechanics. The text then offers an in-depth discussion of piping systems, including the economics of pipe size selection. Janna examines pumps (including net positive suction head considerations) and piping systems. He provides the reader with the ability to design an entire system for moving fluids that is efficient and cost-effective. Next, the book provides a review of basic heat transfer principles, and the analysis of heat exchangers, including double pipe, shell and tube, plate and frame cross flow heat exchangers. Design considerations for these exchangers are also discussed. The text concludes with a chapter of term projects that may be undertaken by teams of students

Table Of Content :

1. INTRODUCTION.

The Design Process. The Bid Process. Approaches to Engineering Design. Design Project Example. Project Management. Dimensions and Units. Summary. Questions for Discussion.

Show and Tell. Problems.

2. FLUID PROPERTIES AND BASIC EQUATIONS.

Fluid Properties. Measurement of Viscosity. Measurement of Pressure. Basic Equations of Fluid Mechanics. Summary. Show and Tell. Problems.

3. PIPING SYSTEMS I.

Pipe and Tubing Standards. Equivalent Diameter for noncircular Ducts. Equation of Motion for Flow in a Duct. Friction Factor and Pipe Roughness. Minor Losses. Series Piping Systems.

Flow Through Noncircular Cross Sections. Show and Tell. Problems.

4. PIPING SYSTEMS II.

The Optimization Process. Economic Pipe Diameter. Equivalent Length of Fittings. Graphical Symbols for Piping Systems. System Behavior. Measurement of Flow Rate in Closed Conduits.

Support Systems for Pipes. Summary. Show and Tell. Problems.

5. SELECTED TOPICS IN FLUID MECHANICS.

Flow in Pipe Networks. Pipes in Parallel. Measurement of Flow Rate in Closed Conduits. The Unsteady Draining Tank Problem. Summary. Show and Tell. Problems.

6. PUMPS AND PIPING SYSTEMS.

Types of Pumps. Pump Testing Methods. Cavitation and Net Positive Suction Head. Dimensiona Analysis of Pumps. Specific Speed and Pump Types. Piping System Design Practices. Fans and Fan Performance. Summary. Show and Tell. Problems. Group Problems.

7. SOME HEAT TRANSFER FUNDAMENTALS.

Conduction of Heat Through a Plane Wall. Conduction of Heat Through a Cylindrical Wall. Convection Heat Transfer&mdashThe General Problem. Convection Heat Transfer Problem: Formulation and Solution. Optimum Thickness of Insulation. Summary. Problems.

8. DOUBLE-PIPE HEAT EXCHANGERS.

The Double-Pipe Heat Exchanger. Analysis of Double-Pipe Heat Exchangers. Effectiveness-NTU Analysis. Double-Pipe Heat Exchanger Design Considerations. Summary. Show and Tell. Problems.

9. SHELL-AND-TUBE HEAT EXCHANGERS.

The Shell-and-Tube Heat Exchangers. Analysis of Shell-and-Tube Exchangers. Effectiveness-NTU Analysis. Increased Heat Recovery in Shell-and-Tube Heat Exchangers. Shell-and-Tube Heat Exchanger Design Considerations. Optimum Water Outlet Temperature Analysis. Show and Tell. Problems.

10. PLATE-AND-FRAME HEAT EXCHANGERS AND CROSS-FLOW HEAT EXCHANGERS.

The Plate-and-Frame Heat Exchanger. Analysis of Plate-and-Frame Heat Exchangers. Cross-Flow Heat Exchangers. Summary. Show and Tell. Problems.

11. PROJECT DESCRIPTIONS.

Book Title:-Fundamentals of Chemical Engineering Thermodynamics

Author :-Kevin D. Dahm | Donald P. Visco, Jr.

ISBN :-9788131524237

Price :-INR 799.00

Pages :-788

Edition :-1

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2012

Overview :

A brand new book, FUNDAMENTALS OF CHEMICAL ENGINEERING THERMODYNAMICS makes the abstract subject of chemical engineering thermodynamics more accessible to undergraduate students. The subject is presented through a problem-solving inductive (from specific to general) learning approach, written in a conversational and approachable manner.

Suitable for either a one-semester course or two-semester sequence in the subject, this book covers thermodynamics in a complete and mathematically rigorous manner, with an emphasis on solving practical engineering problems. The approach taken stresses problem-solving, and draws from &quotbest practice&quot engineering teaching strategies.

FUNDAMENTALS OF CHEMICAL ENGINEERING THERMODYNAMICS uses examples to frame the importance of the material. Each topic begins with a motivational example that is investigated in context to that topic. This framing of the material is helpful to all readers, particularly to global learners who require &quotbig picture&quot insights, and hands-on learners who struggle with abstractions. Each worked example is fully annotated with sketches and comments on the thought process behind the solved problems. Common errors are presented and explained. Extensive margin notes add to the book accessibility as well as presenting opportunities for investigation.

Table Of Content :

1. Introduction.

2. The Physical Properties of Pure Compounds.

3. Material and Energy Balances.

4. Entropy.

5. Thermodynamic Processes and Cycles.

6. Thermodynamic Models of Real, Pure Compounds.

7. Equations of State (EOS).

8. Modeling Phase Equilibrium for Pure Compounds.

9. An Introduction to Mixtures.

10. Vapor-Liquid Equilibrium.

11. Theories and Models for Vapor-Liquid Equilibrium of Mixtures: Modified Raoult&rsquos Law Approaches.

12. Theories and Models for Vapor-Liquid Equilibrium of Mixtures: Using Equations of State.

13. Liquid-Liquid, Vapor-Liquid-Liquid, and Solid-Liquid Equilibrium.

14. Fundamentals of Chemical Reaction Equilibrium.

15. Synthesis of Thermodynamic Principles.

Appendix A: Steam Tables.

Appendix B: Mathematical Techniques.

Appendix C: Physical Properties.

Appendix D: Heat Capacity.

Appendix E: Antoine Equation.

Appendix F: The Joback Group Additivity Method.

Book Title:-Product Design for Engineers with MindTap

Author :-Devdas Shetty

ISBN :-9788131533031

Price :-INR 525

Pages :-480

Edition :-1

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2016

Overview :

Develop key skills you'll need for your career in mechanical, industrial, aerospace, manufacturing, or automotive engineering with PRODUCT DESIGN FOR ENGINEERS. This empowering text explores techniques for managing innovation, entrepreneurship, and design and introduces you to the creative problem-solving method for product success. Case studies in every chapter explore issues of design for assembly, disassembly, reliability, maintainability, and sustainability. The book's interdisciplinary approach, step-by-step coverage, and helpful illustrations and charts give you everything you need to design cost-effective, innovative products.

Table Of Content :

1. Product Design Process.

2. Customer Focus.

3. Creative Concept Generation and Evaluation.

4. Product Configuration and Design for Function.

5. Design Evaluation- Assessing Design Assembly.

6. Product Evaluation- Assessing Design for Disassembly and Maintenance.

7. Product Architecture -The Impact on Manufacturing.

8. Sustainable Product Design through Reliability.

9. Digital Manufacturing and Virtual Product Prototyping.

10. Additional Case Studies.

Book Title:-Computational Fluid Dynamics and Heat Transfer

Author :-P.S. Ghoshdastidar

ISBN :-9788131533079

Price :-INR 350

Pages :-296

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2017

Overview :

Computational Fluid Dynamics (abbreviated as CFD) is a subject which deals with solution of fluid dynamics and heat transfer problems using numerical methods which can be programmed on computer.Engineers today can make use of CFD tools to simulate fluid flow and heat transfer phenomena in a design and predict the system performance before manufacturing.The present text introduces CFD to beginners in an easy-to-understand manner. Advanced students will also find this book useful.This is an invaluable textbook for postgraduate Mechanical, Aerospace, Metallurgical and Chemical Engineering students.Undergraduate students would also find in it a useful reference for their projects.

Table Of Content :

1. Introduction

2. Partial Differential Equations

3. Introduction to Finite Difference, Numerical Errors, and Accuracy

4. Numerical Methods for Conduction Heat Transfer

5. Numerical Methods for Incompressible Fluid Flow

6. Numerical Methods for Convection Heat Transfer

7. Advanced Topics

Appendices

Index

Book Title:-Mechanics of Fluids with MindTap

Author :-Merle C. Potter | David C. Wiggert | Bassem H. Ramadan

ISBN :-9789386858122

Price :-INR 999

Pages :-798

Edition :-5

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2017

Overview :

Gain an understanding of fluid mechanics and the ability to analyze this important phenomena encountered by practicing engineers with MECHANICS OF FLUIDS, 5E. The authors use proven learning tools to help you visualize many difficult-to-understand aspects of fluid mechanics. The mathematics used in derivations are readily accessible to you as an undergraduate engineering student. This edition's accompanying Multimedia Fluid Mechanics DVD-ROM helps you gain insights and develop intuition about fluid flow as you view mathematical relationships through movies and conduct actual simulations. The book's companion website includes mini-exams and solutions as well as video tutorials to assist you in further mastering fluid mechanics as an emerging professional.

Table Of Content :

1. BASIC CONSIDERATIONS.

Introduction. Dimensions, Units, and Physical Quantities. Continuum View of Gases and Liquids. Pressure and Temperature Scales. Fluid Properties. Conservation Laws. Thermodynamic Properties and Relationships. Summary. Problems.

2. FLUID STATICS.

Introduction. Pressure at a Point. Pressure Variation. Fluids at Rest. Linearly Accelerating Containers. Rotating Containers. Summary. Problems.

3. INTRODUCTION TO FLUIDS IN MOTION.

Introduction. Description of Fluid Motion. Classification of Fluid Flows. The Bernoulli Equation. Summary. Problems.

4. THE INTEGRAL FORMS OF THE FUNDAMENTAL LAWS.

Introduction. The Three Basic Laws. System-to-Control-Volume Transformation. Conservation of Mass. Energy Equation. Momentum Equation. Moment-of-Momentum Equation. Summary. Problems.

5. THE DIFFERENTIAL FORMS OF THE FUNDAMENTAL LAWS.

Introduction. Differential Continuity Equation. Differential Momentum Equation. Differential Energy Equation. Summary. Problems.

6. DIMENSIONAL ANALYSIS AND SIMILITUDE.

Introduction. Dimensional Analysis. Similitude. Normalized Differential Equations. Summary. Problems.

7. INTERNAL FLOWS.

Introduction. Entrance Flow and Developed Flow. Laminar Flow in a Pipe. Laminar Flow between Parallel Plates. Laminar Flow between Rotating Cylinders. Turbulent Flow in a Pipe. Uniform Turbulent Flow in Open Channels. Summary. Problems.

8. EXTERNAL FLOWS.

Introduction. Separation. Flow Around Immersed Bodies. Lift and Drag on Airfoils. Potential-Flow Theory. Boundary-Layer Theory. Summary. Problems.

9. COMPRESSIBLE FLOW.

Introduction. Speed of Sound and the Mach Number. Isentropic Nozzle Flow. Normal Shock Wave. Shock Waves in Converging-Diverging Nozzles. Vapor Flow through a Nozzle. Oblique Shock Wave. Isentropic Expansion Waves. Summary. Problems.

10. FLOW IN OPEN CHANNELS.

Introduction. Open-Channel Flows. Uniform Flow. Energy Concepts. Momentum Concepts. Nonuniform Gradually Varied Flow. Numerical Analysis of Water Surface Profiles. Summary. Problems.

11. FLOWS IN PIPING SYSTEMS.

Introduction. Losses in Piping Systems. Simple Pipe Systems. Analysis of Pipe Networks. Unsteady Flow in Pipelines. Summary. Problems.

12. TURBOMACHINERY.

Introduction. Turbopumps. Dimensional Analysis and Similitude for Turbomachinery. Use of Turbopumps in Piping Systems. Turbines. Summary. Problems.

13. MEASUREMENTS IN FLUID MECHANICS.

Introduction. Measurement of Local Flow Parameters. Flow Rate Measurement. Flow Visualization. Data Acquisition and Analysis. Summary. Problems.

14. COMPUTATIONAL FLUID DYNAMICS.

Introduction. Examples of Finite-Difference Methods. Stability, Convergence, and Errors. Solution of Couette Flow. Solution of Two-Dimensional Steady-State Potential Flow. Summary. References. Problems.

APPENDIX A. UNITS AND CONVERSIONS AND VECTOR RELATIONSHIPS

APPENDIX B. FLUID PROPERTIES

APPENDIX C. PROPERTIES OF AREAS AND VOLUMES

APPENDIX D. COMPRESSIBLE-FLOW TABLES FOR AIR

APPENDIX E. NUMERICAL SOLUTIONS FOR CHAPTER 10

APPENDIX F. NUMERICAL SOLUTIONS FOR CHAPTER 11

BIBLIOGRAPHY.

References. General Interest.

ANSWERS TO SELECTED PROBLEMS.

INDEX.

Book Title:-The Science and Engineering of Materials with MindTap

Author :-Donald R. Askeland | Wendelin J. Wright

ISBN :-9789386858153

Price :-INR 799

Pages :-898

Edition :-7

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2016

Overview :

This updated Seventh Edition of THE SCIENCE AND ENGINEERING OF MATERIALS helps you to develop an understanding of the relationship between structure, processing, and properties of materials. Because the book has more material than is needed for a one-semester course, you will also have a useful reference for subsequent courses in manufacturing, materials, design, or materials selection. The Askeland text emphasizes a science-based approach to materials engineering that highlights how the structure of materials at various length scales gives rise to materials properties. This connection between structure and properties is key to innovating with materials, both in the synthesis of new materials and enabling new applications with existing materials. The science-based approach highlights how materials change with time and due to loading and environment - a key concept that is often overlooked when using charts and databases to select materials.

Table Of Content :

1. Introduction to Materials Science and Engineering.

2. Atomic Structure.

3. Atomic and Ionic Arrangements.

4. Imperfections in the Atomic and Ionic Arrangements.

5. Atom and Ion Movements in Materials

6. Mechanical Properties: Part One.

7. Mechanical Properties: Part Two.

8. Strain Hardening and Annealing.

9. Principles of Solidification.

10. Solid Solutions and Phase Equilibrium.

11. Dispersion Strengthening and Eutectic Phase Diagrams.

12. Dispersion Strengthening by Phase Transformations and Heat Treatment.

13. Heat Treatment of Steels and Cast Irons.

14. Nonferrous Alloys.

15. Ceramic Materials.

16. Polymers.

17. Composites: Teamwork and Synergy in Materials.

18. Construction Materials.

19. Electronic Materials.

20. Magnetic Materials.

21. Photonic Materials/

22. Thermal Properties of Materials.

23. Corrosion and Wear.

Appendix A: Selected Physical Properties of Materials.

Appendix B: The Atomic and Ionic Radii of Selected Elements.

Book Title:-Engineering Mechanics (JNTU, HAK)

Author :-T. Vijaya Krishna | T. Madhu Mohan

ISBN :-9788131533338

Price :-INR 375

Pages :-462

Edition :-1

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2017

Overview :

This book, Engineering Mechanics, is designed to explain the fundamental concepts and basic principles in the subject. A step-by-step build-up of the concepts makes this book student-friendly. The text includes a large number of solved examples which emphasize on the problem-solving methodology for an easy and better way to understand the subject. The book uses both scalar and vector approaches in explaining the core concepts with suitable examples.

Table Of Content :

STATICS

1: System of Forces

2: Equilibrium of System of Forces

3: Analysis of Structures

4: Friction

5: Centroid and Centre of Gravity

6: Area Moment of Inertia

7: Mass Moment of Inertia

DYNAMICS

8: Kinematics

9: Kinetics

10: Work-Energy Method and Virtual Work

11: Mechanical Vibrations

Book Title:-Turbomachines

Author :-Shankar Nag G. L. | Keerthi Kumar N.

ISBN :-9789386668165

Price :-INR 450

Pages :-392

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2019

Overview :

This textbook on turbomachines has been suitably crafted and designed to meet the requirements of mechanical, civil, and electrical undergraduate engineering students. It aims to build clear fundamental concepts and strong problem-solving ability in a simple and lucid manner of explanation. This book follows an exam-oriented approach with pedagogy similar to that of examinations of various universities.

Table Of Content :

Chapter 1 Introduction to Turbomachines

Chapter 2 Energy Transfer in Turbomachines

Chapter 3 Thermodynamics of Fluid Flow

Chapter 4 Axial Flow Compressors

Chapter 5 Centrifugal Compressors

Chapter 6 Centrifugal Pumps

Chapter 7 Steam and Gas Turbines

Chapter 8 Hydraulic Turbines

Book Title:-Mechanics of Materials

Author :-S.C. Pilli | N. Balasubramanya

ISBN :-9789386668509

Price :-INR 550

Pages :-564

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2019

Overview :

This book, Mechanics of Materials: Strength of Materials, discusses the spectrum of the subject and displays how it can be applied in practical projects. Chapters are grouped in the logical sections which cover all the activities. Subject matter has been organized in a manner that allows the book to be used at introductory, intermediate, and advanced courses pertaining to mechanics of materials.

Table Of Content :

1. Simple Stress and Strain

2. Stresses Analysis

3. Thin and Thick Cylinders

4. Bending Moment and Shear Force in Beams

5. Elastic Stability of Columns

6. Torsion of Circular Shafts

7. Deflection of Beams

8. Bending Stress and Shear Stress in Beams

9. Strain Energy

10. Theories of Failure

Book Title:-Fundamentals of Dimensional Metrology

Author :-Connie L. Dotson

ISBN :-9789386668547

Price :-INR 525

Pages :-640

Edition :-6

Binding :-Paperback

Imprint :-Delmar Hardside

© Year :-2016

Overview :

Reflecting the latest changes in standards and technology, market-leading FUNDAMENTALS OF DIMENSIONAL METROLOGY, 6e combines hands-on applications with authoritative, comprehensive coverage of the principles, techniques, and devices used within today's dimensional metrology field. The Sixth Edition has been thoroughly revised and updated in direct response to reviewer feedback. The new edition features an easier to understand presentation, a new lab manual/workbook, updated photos and illustrations and updated references to measurement standards.. The text continues to use both metric and imperial systems but emphasizes metric measurement devices and concepts in all examples for greater consistency with the latest industry trends.

Table Of Content :

Preface.

1. Measurement and Metrology.

2. Language and Systems of Measurement.

3. Measurement and Tolerances.

4. Statistics and Metrology.

5. Graduated Scales and Scaled Instruments.

6. Vernier Instruments.

7. Micrometer Instruments

8. Gage Blocks.

9. Calibration.

10. Measurement by Comparison.

11. Reference Planes.

12. Angle Measurement.

13. Surface Measurement.

14. High Amplification-Comparators.

15. Pneumatic Measurement.

16. Optical Flats.

17. Optical Metrology.

18. Coordinate Measuring Machines.

Appendices.

Glossary.

Index.

Book Title:-Dynamics of Machines

Author :-S. Balaguru

ISBN :-9789386668608

Price :-INR 499

Pages :-832

Edition :-6

Binding :-Paperback

Imprint :-CL India

© Year :-2019

Overview :

Dynamics of Machines is a comprehensive textbook for B.E. Mechanical Engineering course for Anna University. This book is designed as per the latest curriculum and topics are developed systematically for a thorough understanding of the subject. It emphasizes on developing critical thinking and problem-solving skills. This book also meets the requirement of other universities.

Table Of Content :

Chapter 1 Introduction to Dynamics of Machinery

Chapter 2 Static Force Analysis

Chapter 3 Dynamic Force Analysis (Planar)

Chapter 4 Turning Moment Diagrams and Flywheel

Chapter 5 Dynamic Analysis of Cams (Cam Dynamics)

Chapter 6 Balancing of Rotating Masses

Chapter 7 Balancing of Reciprocating Masses

Chapter 8 Longitudinal Vibrations

Chapter 9 Transverse Vibrations

Chapter 10 Torsional Vibrations

Chapter 11 Forced Vibrations

Chapter 12 Governors

Chapter 13 Gyroscope and it&rsquos Application

Appendix University Question Solved Papers

Book Title:-Additive Manufacturing Technology

Author :-Hari Prasad I | A.V. Suresh

ISBN :-9789353500481

Price :-INR 325

Pages :-224

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2019

Overview :

Additive manufacturing is an engineering technology pertaining to the field of manufacturing, which minimises the time of production significantly and results in greater rate of production it is considered as one of the most efficient, economical, accurate, and qualitative ways. One of the most important attributes of this technology is the features that it enables in the flexibility of the design, free of geometrical complexity, which overcomes most of the shortcomings in the existing conventional methods.

Table Of Content :

1. Introduction to Additive Manufacturing

2. Software for Additive Manufacturing

3. Classification of Additive Manufacturing (AM) Systems

4. Selective Laser Sintering (SLS)

5. Selective Laser Melting (SLM)

6. Direct Metal Laser Sintering (DMLS)

7. Fused Deposition Modelling (FDM)

8. Laminated Object Manufacturing (LOM)

9. Concept Modellers

10. Additive Manufacturing in Tooling

11. Process Optimization

12. Other Attractive AM Processes

13. Applications of Additive Manufacturing

14. Advancements in Additive Manufacturing

Book Title:-Operations Research

Author :-M. Sreenivasa Reddy

ISBN :-9789353500498

Price :-INR 425

Pages :-412

Edition :-4

Binding :-Paperback

Imprint :-CL India

© Year :-2019

Overview :

Decision making has always been a challenging task. Operations research, as an art and science, has an important role to play in objective decision making in industry, agriculture, business, and many other spheres of engineering and management. This area has equally intrigued the interest of the theoretical strategists and practitioners since its foundations were laid by military teams during WW II.

During the past 60 plus years, a large number of findings and new perspectives have been published, many of which do not meet the specific requirements of the current student community. This book is designed to specifically meet this lacuna. With a large number of illustrations, worked-out examples, and problems coupled with self-assessment questions, the student as well as the teaching faculty will find this book an extremely useful content provider to understand the subject as well as to face the examinations. To make the subject simpler, glossary and flow charts are provided with a very strong emphasis on &lsquozero doubt&rsquo understanding of the concepts. This book is a well-organized and comprehensive textbook in true sense.

Table Of Content :

1. Introduction to Operations Research

2. Linear Programming Problem (LPP)

3. Transportation and Assignment Problems

4. Network Analysis and Queuing Theory

5. Game Theory and Sequencing

Book Title:-Strength of Materials

Author :-J.K. Gupta | S.K. Gupta

ISBN :-9789353501006

Price :-INR 599

Pages :-746

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2019

Overview :

A textbook specifically designed for the students of B.E./B.Tech., B. Arch., Diploma in Engineering, and for those preparing for U.P.S.C. Examinations (Engineering and Civil Services), AMIE, GATE, and various other engineering competitive examinations. It is written strictly according to the latest syllabi of Indian and Foreign Universities. This book is written in a simple and easy language so that students can understand the subject by self-study. It is intended to be useful also to the faculty members teaching the subject. The book will be a valuable source of information and reference for post-graduate students, interview-preparation, and for industry professionals.

Table Of Content :

1. Basic Concepts

2. Simple Stresses and Strains

3. Thermal Stresses and Strains

4. Shear Stresses and Strains

5. Principal Stresses and Strains

6. Strain Energy and Impact Loading

7. Centre of Gravity

8. Moment of Inertia

9. Shear Force and Bending Moment of Beams

10. Bending Stresses in Beams

11. Direct and Bending Stresses Combined

12. Deflection of Beams

13. Columns and Struts

14. Torsion of Shafts

15. Springs

16. Thin Cylindrical and Spherical Shells

17. Thick Cylindrical and Spherical Shells

18. Theories of Failure

19. Mechanical Properties and Testing of Materials

20. Stresses due to Rotation

21. Bending of Curved Bars

Index

Book Title:-Operations Research

Author :-Prasanna Devidas Dahe

ISBN :-9789353501839

Price :-INR 470

Pages :-464

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2020

Overview :

This book, intended for the course on operations research, is particularly useful for UG/PG degree programmes in engineering and computer applications and may also suit other streams such as management, sciences, etc. The content is designed to address the requirements of the engineering programmes in Indian universities. The systems engineering approach is unique and is expected to receive appreciation especially from the academic community. Operations research is related to the analytical part of systems engineering. This book discusses the operations research techniques using the fundamental concepts of systems engineering to make a difficult but important subject easy to understand. This course in systems engineering concepts coupled with the application of operations research techniques shall help engineers and managers to develop the viewpoint and tools necessary for handling real-life problems.

Difficult analytical techniques and mathematical procedures are explained from first principles assuming bare minimum pre-requisites, to encourage the learner and to make learning enjoyable. A step-by-step explanation presents the concepts and principles and a clear link is established to the already-digested concepts to keep the student involved.

Table Of Content :

PART I SYSTEMS ENGINEERING

1. Introduction to Systems Engineering

1.1 Background

1.2 Nature of Real-life Engineering Systems

1.3 Necessity, Significance, and Scope of Systems Engineering

1.4 Role of Systems Engineering

1.5 Justification for Systems Engineering

1.6 An Example: Proposal for Constructing a House for Oneself

2. The Concept of System

2.1 Introduction and Definition

2.2 System Concepts

2.3 Characteristics of a System

2.4 Examples of Systems

2.4.1 A Computer System

2.4.2 The Hydrologic Cycle

2.5 Types of Systems

2.6 Hierarchy of Systems

2.6.1 Subsystems and Suprasystems

2.7 Identification and Formulation of Systems

2.7.1 Building Systems from Subsystems

2.7.2 An Example

3. Systems Engineering

3.1 Introduction to Systems Engineering

3.1.1 Definition

3.2 Systems Approach and Systems Analysis

3.2.1 Systems Approach

3.2.2 Systems Analysis

3.3 System Models and Their Role

3.3.1 Models

3.3.2 Development of System Models

3.3.3 Role of System Models

3.3.4 Types of System Models

3.3.5 An Example

3.4 Examples: Informal Applications of Systems Engineering

4. Systems Analysis

4.1 Introduction

4.2 Systems Analysis Techniques

4.3 The Concept and Process of Optimization

4.4 Optimization by Method of Calculus

4.4.1 Function of a Single Variable

4.4.2 Function of Multiple Variables

4.4.3 Unconstrained Systems

4.4.4 Constrained Systems

4.5 Terminology and Definition of Terms

4.6 Non-linear Programming

PART II DETERMINISTIC MODELS

5. Linear Programming

5.1 Introduction

5.2 General Form of Linear Programming Model

5.3 Assumptions in Linear Programming

5.4 Solution of Linear Programming Models by Graphical Method

5.5 Solution of Linear Programming Models by Simplex Method

5.5.1 The Simplex Algorithm

5.6 Handling Artificial Variables: The Big-M and Two-phase Methods

5.6.1 The Big-M Method

5.6.2 The Two-phase Method

5.7 Introduction to the Theory of Duality

5.8 Applications of Linear Programming Models

5.9 Limitations of Linear Programming

5.10 Examples: Formulation of Linear Programming Problems

5.10.1 The Crop Planning Problem

5.10.2 The Product Mix Problem

6. Transportation, Transshipment, and Assignment Problems

6.1 Introduction

6.2 The Transportation Problem

6.2.1 Formulation and Discussion

6.2.2 Solution to the Transportation Problem

6.2.3 Transportation Algorithm: Finding the Initial Basic Feasible Solution

6.2.4 Transportation Algorithm: The Check for Optimality

6.2.5 Transportation Algorithm: Iterating the Algorithm

6.2.6 Degeneracy

6.2.7 Closure

6.2.8 Exercises

6.3 The Transshipment Problem

6.3.1 Steps in Solving the Transshipment Problem

6.3.2 Closure

6.3.3 Exercises

6.4 The Assignment Problem

6.4.1 The Hungarian Method

6.4.2 Algorithm for the Hungarian Method

6.4.3 Closure

6.4.4 Exercises

7. Dynamic Programming

7.1 Introduction

7.2 Approach and Methodology

7.3 Applications of Dynamic Programming

7.3.1 Shortest Route Problem 1

7.3.2 Shortest Route Problem 2

7.3.3 Shortest Route Problem 3

7.3.4 Resource Allocation Problem 1

7.3.5 Resource Allocation Problem 2

7.4 Curse of Dimensionality in Dynamic Programming

7.5 Formulation of Dynamic Programming Problems

8. Inventory Models

8.1 Introduction

8.2 Selective Inventory Control

8.2.1 ABC Analysis

8.2.2 VED Analysis

8.2.3 SDE Analysis

8.2.4 FSN Analysis

8.3 General Inventory Model

8.3.1 Inventory Parameters

8.3.2 Cost Considerations in Inventory Problem

8.3.3 Assumptions

8.4 Infinite Delivery Rate with No Backordering

8.4.1 Derivation of the Economic Order Quantity Formula

8.4.2 Price Breaks

8.5 Finite Delivery Rate with No Backordering

8.6 Infinite Delivery Rate with Backordering

8.7 Finite Delivery Rate with Backordering

9. Sequencing Models

9.1 Introduction

9.2 Elements and Assumptions

9.2.1 Elements of Sequencing Problems

9.2.2 Assumptions in Sequencing Problems

9.3 Processing N Jobs Through One Machine

9.4 Processing N Jobs Through Two Machines

9.5 Processing N Jobs Through Three Machines

PART III PROBABILISTIC MODELS

10. Probability Concepts and Forecasting Techniques

10.1 Introduction

10.2 Basic Concepts of Probability and Statistics

10.2.1 Probability of an Event

10.2.2 Random Variables

10.2.3 Discrete Random Variables

10.2.4 Important Probability Distributions of a Discrete Random Variable

10.2.5 Continuous Random Variables

10.2.6 Important Probability Distributions of Continuous Random Variables

10.3 Forecasting Techniques

10.3.1 Forecasting Process

10.3.2 Classification of Forecasting Techniques

10.3.3 Qualitative Forecasting Techniques

10.3.4 Quantitative Forecasting Techniques

10.3.5 Regression and Correlation Analysis

10.3.6 Accuracy and Control of Forecasts

11. Queuing Theory&mdashWaiting Line Models

11.1 Introduction

11.2 Approaches to Resolve the Queuing Problem

11.3 Queuing Parameters

11.3.1 The Input Process

11.3.2 The Service Mechanism

11.3.3 Queue Discipline

11.3.4 Customer Behaviour

11.4 Assumptions, Concepts, and Definitions

11.4.1 Assumptions

11.4.2 Transient and Steady-state System

11.4.3 Traffic Intensity

11.4.4 The Queue System

11.4.5 Notation

11.4.6 Kendall&rsquos Notation

11.4.7 Balance Diagram and Balance Equations

11.5 Queuing Model M/M/1/&infin

11.6 Queuing Model M/M

11.7 Queuing Model M/M/s/&infin

11.8 Queuing Model M/M/s/N

12. Replacement Models

12.1 Introduction

12.2 Replacement of Items that Deteriorate with Time

12.2.1 Time Value of Money is Not Considered

12.2.2 Time Value of Money is Considered

12.3 Replacement of Items that Fail Suddenly

12.4 Replacement Policies

12.4.1 Individual Replacement Policy

12.4.2 Group Replacement Policy

12.4.3 Mortality

12.4.4 Group Replacement

12.4.5 Preventive Replacement

13. Decision Theory and Games

13.1 Introduction

13.2 Decision-making Under Risk

13.2.1 Expected Value Criterion

13.2.2 Decision Procedure with Bayes Probabilities

13.3 Decision Trees

13.4 Decision-making Under Uncertainty

13.4.1 Maximax and Minimin Criteria

13.4.2 Minimax and Maximin Criteria

13.4.3 Laplace Criterion

13.4.4 Hurwicz Criterion

13.5 Game Theory&mdashCompetitive Strategy

13.5.1 Concepts and Terminology

13.5.2 Solution of Two-person Zero-sum Games with Pure Strategies

13.5.3 Mixed Strategies

14. Simulation

14.1 Introduction

14.2 The Concept of Simulation

14.2.1 Classification of Simulation Models

14.2.2 Advantages and Limitations of Simulation Models

14.2.3 Application of Simulation Models

14.3 Monte Carlo Simu

14.4 Examples of Monte Carlo Simulation

14.4.1 To Create Cumulative Probability of Demand Based on Normal Distribution

15. Project Management

15.1 Introduction

15.1.1 Cost of Delays in Implementation of Projects

15.1.2 Projects and the Planning Process

15.1.3 Project Life Cycle

15.1.4 Role of Project Management Techniques&mdashCritical Path Method and Performance Evaluation and Review Technique

15.2 Principles of Network Technique

15.2.1 Activities and Events

15.2.2 Event and Activity Numbering

15.2.3 Developing a Network

15.3 Project Time Analysis for Network Techniques&mdashCritical Path Method and Performance Evaluation and Review Technique

15.3.1 Activity Duration

15.3.2 Event Time and Activity Time

15.3.3 Time Analysis for a Project

15.3.4 Event Slack and Activity Float

15.3.5 Critical Path

15.4 Performance Evaluation and Review Technique

15.4.1 Performance Evaluation and Review Technique Statistics

15.4.2 Probability of Completing a Project on Schedule

15.4.3 Criticism of Performance Evaluation and Review Technique and Its Utility

15.5 Project Time&ndashCost Relationship

15.5.1 Shortening Project Duration

15.5.2 Activity Time&ndashCost relationship

15.5.3 Project Time&ndashCost Relationship

15.5.4 Time&ndashCost Trade-off Analysis

15.6 Resource Allocation and Scheduling

15.6.1 Project Resources

15.6.2 Resource Usage

15.6.3 Resources Smoothening

15.6.4 Resources Leveling

15.7 Project Scheduling and Monitoring

15.7.1 Methods for Scheduling

15.7.2 Presenting the Project Schedule

15.7.3 Monitoring and Control of a Project

Book Title:-Mechanics of Materials with MindTap, 9E

Author :-Barry J. Goodno | James M. Gere

ISBN :-9789353502478

Price :-INR 899

Pages :-1184

Edition :-9

Binding :-Paperback

Imprint :-Cengage Engineering

© Year :-2018

Overview :

Develop a thorough understanding of the mechanics of materials &ndash an essential area in mechanical, civil, and structural engineering -- with the analytical approach and problem-solving emphasis in the market-leading MECHANICS OF MATERIALS, 9E. This book focuses on the analysis and design of structural members subjected to tension, compression, torsion, bending, and more. Photographs and detailed diagrams demonstrate reactive and internal forces and resulting deformations.

Table Of Content :

1. Tension, Compression, and Shear

Introduction to Mechanics of Materials. Problem-Solving Approach. Statics Review. Normal Stress and Strain. Mechanical Properties of Materials. Elasticity, Plasticity, and Creep. Linear Elasticity, Hooke&rsquos Law, and Poisson&rsquos Ratio. Shear Stress and Strain. Allowable Stresses and Allowable Loads. Design for Axial Loads and Direct Shear.

2. Axially Loaded Members.

Introduction. Changes in Lengths of Axially Loaded Members. Changes in Lengths under Nonuniform Conditions. Statically Indeterminate Structures. Thermal Effects, Misfits, and Prestrains. Stresses on Inclined Sections. Strain Energy. Impact Loading. Repeated Loading and Fatigue. Stress Concentrations. Nonlinear Behavior. Elastoplastic Analysis

3. Torsion.

Introduction. Torsional Deformations of a Circular Bar. Circular Bars of Linearly Elastic Materials. Nonuni-form Torsion. Stresses and Strains in Pure Shear. Relationship Between Moduli of Elasticity E and G. Trans-mission of Power by Circular Shafts. Statically Indeterminate Torsional Members. Strain Energy in Torsion and Pure Shear. Torsion of Noncircular Prismatic Shafts. Thin-Walled Tubes. Stress Concentrations in Tor-sion.

4. Shear Forces and Bending Moments.

Introduction. Types of Beams, Loads, and Reactions. Shear Forces and Bending Moments. Relationships Among Loads, Shear Forces, and Bending Moments. Shear-Force and Bending-Moment Diagrams.

5. Stresses in Beams (Basic Topics).

Introduction. Pure Bending and Nonuniform Bending. Curvature of a Beam. Longitudinal Strains in Beams. Normal Stress in Beams (Linearly Elastic Materials). Design of Beams for Bending Stresses. Nonprismatic Beams. Shear Stresses in Beams of Rectangular Cross Section. Shear Stresses in Beams of Circular Cross Section. Shear Stresses in the Webs of Beams with Flanges. Built-Up Beams and Shear Flow. Beams with Axial Loads. Stress Concentrations in Bending

6. Stresses in Beams (Advanced Topics).

Introduction. Composite Beams. Transformed-Section Method. Doubly Symmetric Beams with Inclined Loads. Bending of Unsymmetric Beams. The Shear-Center Concept. Shear Stresses in Beams of Thin-Walled Open Cross Sections. Shear Stresses in Wide-Flange Beams. Shear Centers of Thin-Walled Open Sections. Elastoplastic Bending.

7. Analysis of Stress and Strain.

Introduction. Plane Stress. Principal Stresses and Maximum Shear Stresses. Mohr&rsquos Circle for Plane Stress. Hooke&rsquos Law for Plane Stress. Triaxial Stress. Plane Strain.

8. Applications of Plane Stress (Pressure Vessels, Beams, and Combined Loadings).

Introduction. Spherical Pressure Vessels. Cylindrical Pressure Vessels. Maximum Stresses in Beams. Combined Loadings.

9. Deflections of Beams.

Introduction. Differential Equations of the Deflection Curve. Deflections by Integration of the Bending-Moment Equation. Deflections by Integration of the Shear-Force and Load Equations. Method of Superposition. Moment-Area Method. Nonprismatic Beams. Strain Energy of Bending. Castigliano&rsquos Theorem. Deflections Produced by Impact. Temperature Effects

10. Statically Indeterminate Beams.

Introduction. Types of Statically Indeterminate Beams. Analysis by the Differential Equations of the Deflection Curve. Method of Superposition. Temperature Effects. Longitudinal Displacements at the Ends of a Beam.

11. Columns.

Introduction. Buckling and Stability. Columns with Pinned Ends. Columns with Other Support Conditions. Columns with Eccentric Axial Loads. The Secant Formula for Columns. Elastic and Inelastic Column Behavior. Inelastic Buckling. Design Formulas for Columns.

References and Historical Notes.

Appendix A: Systems of Units and Conversion Factors.

Appendix B: Problem Solving.

Appendix C: Mathematical Formulas.

Appendix D: Review of Centroids and Moments Of Inertia.

Appendix E: Properties Of Plane Areas.

Appendix F: Properties of Structural-Steel Shapes.

Appendix G: Properties of Structural Lumber.

Appendix H: Deflections and Slopes of Beams.

Appendix I: Properties of Materials.

Book Title:-Engineering Mechanics (JNTU, HAK), 2E

Author :-T. Vijaya Krishna | T. Madhu Mohan | G. Ravi Kiran Sastry

ISBN :-9789353502782

Price :-INR 350

Pages :-464

Edition :-2

Binding :-Paperback

Imprint :-CL India

© Year :-2020

Overview :

This book is designed to explain the fundamental concepts and basic principles pertaining to the subject. A step-by-step build-up of the concepts makes this book student friendly. The text includes a large number of solved examples which emphasize on the problem-solving methodology for easy and better understanding of the subject. The book uses, both, scalar and vector approaches for explaining the core concepts with suitable examples.

Table Of Content :

STATICS

Chapter 1: System of Forces

Chapter 2: Equilibrium of System of Forces

Chapter 3: Analysis of Structures

Chapter 4: Friction

Chapter 5: Centroid and Centre of Gravity

Chapter 6: Area Moment of Inertia

Chapter 7: Mass Moment of Inertia

DYNAMICS

Chapter 8: Kinematics

Chapter 9: Kinetics

Chapter 10: Work-Energy Method and Virtual Work

Chapter 11: Mechanical Vibrations

Book Title:-Computer-integrated Manufacturing: Automation in Manufacturing

Author :-R. Panneerselvam | P. Senthilkumar | P. Sivasankaran

ISBN :-9789353503208

Price :-INR 499

Pages :-485

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2020

Overview :

The growing demand for unique products, coupled with increased competition, propels manufacturing companies to switch to a highly efficient and effective manufacturing system comprising of carefully designed sub-systems in order to come up with products having, both, high quality as well as cost-effectiveness at the same time. This requires complete integration of all sub-systems of a manufacturing organization using computer technology&mdashComputer-integrated Manufacturing (CIM), which has become an indispensable approach for modern-day manufacturing organizations. In addition to its significance in the manufacturing industry, the concept of CIM is also of paramount importance for prospective engineers. Keeping all this in mind, the authors, from diverse backgrounds&mdashteaching, research, and industry, have come together and developed this wonderful treatise on the subject. This book is written by the authors who are well-qualified and accomplished in their own respective arenas and will serve as a textbook for B.Tech. (Mechanical Engineering), M.Tech. (Industrial Engineering &amp Manufacturing/Production Engineering), and MBA students. Furthermore, this text will be useful for industry practitioners to plan and implement CIM.

Table Of Content :

1.Manufacturing System Management

2. Computer-integrated Manufacturing

3.Manufacturing Models and Performance Metrics

4.Lean Manufacturing and Total Productive Maintenance

5.Just-in-time and Agile Manufacturing

6.Process Planning

7.Plant Layout

8.Flexible Manufacturing Systems

9.Shop Floor Control

10.Fundamentals of Communication

11.Database Management Systems

12.Two-dimensional (2D) Geometric Transformation

13.Three-dimensional (3D) Transformation

14.Geometric Modeling

15.Robotics

16.Spacial Descriptions and Transformations for Three-dimensional Space

17.Sensing

18.Robot End Effector

19.Robot Programming

20. CAD Commands

Glossary

Index

Book Title:-Engineering Physics (JNTU, HAK)

Author :-T. Madhu Mohan | T. Vijaya Krishna | B. K. Pandey | Manoj K. Harbola | S. Chaturvedi

ISBN :-9789353502850

Price :-INR 350

Pages :-448

Edition :-1

Binding :-Paperback

Imprint :-CL India

© Year :-2020

Overview :

This book, Engineering Physics, is designed to explain the fundamental concepts and basic principles in the subject. A step-by-step build-up of the concepts makes this book student friendly. The structure of each unit redefines the parameters of conceptual learning through Solved Examples, Review Questions, and Multiple-choice Questions. Conceptual arguments lead to the mathematical formulae providing a coherent mix of Physics and Mathematics. This book gives a balanced account of the fundamentals of physics as well as some of the recent developments in this area best suited to the engineering applications.

Table Of Content :

UNIT I: MECHANICS

UNIT II: WAVE OPTICS

UNIT III: LASERS, HOLOGRAPHY, AND OPTICAL FIBRES

UNIT IV: MAGNETISM, DIELECTRICS, AND ELECTROMAGNETISM

UNIT V: ACOUSTICS

UNIT VI: ULTRASONICS

UNIT VII: ELASTICITY

UNIT VIII: SENSORS

UNIT IX: NANOMATERIALS