BC Punmia Strength of Materials PDF: A Comprehensive Guide for Engineering Students
If you are looking for a reliable and comprehensive book on strength of materials, you might want to check out BC Punmia Strength of Materials PDF. This book covers all the topics related to mechanics of materials, such as stress, strain, elasticity, failure theories, beams, columns, torsion, springs, cylinders and frames. It also provides numerous solved examples, illustrations, diagrams and exercises to help you master the concepts and apply them in practical situations.
In this article, we will give you an overview of the book, its contents, features and benefits. We will also tell you how to download the book for free from various sources. So, read on to find out more about BC Punmia Strength of Materials PDF.
What is BC Punmia Strength of Materials PDF
BC Punmia Strength of Materials PDF is a popular book on mechanics of materials written by Dr. B.C. Punmia, Ashok Kumar Jain and Arun Kumar Jain. The book was first published in 1987 and has been revised and updated several times since then. The latest edition of the book is the 16th edition, which was published in 2019.
The book is designed for undergraduate and postgraduate students of civil engineering, mechanical engineering and other related branches. It is also useful for practicing engineers, consultants and researchers who deal with problems involving strength of materials.
The book follows a systematic and logical approach to explain the principles and applications of strength of materials. It covers both the theoretical and numerical aspects of the subject in a clear and concise manner. It also incorporates the latest developments and standards in the field.
What are the contents of BC Punmia Strength of Materials PDF
BC Punmia Strength of Materials PDF consists of 27 chapters divided into five parts. The chapters are as follows:
Part I: Simple Stresses and Strains
Chapter 1: Mechanical Properties of Materials
Chapter 2: Simple Stresses and Strains
Chapter 3: Elastic Constants
Chapter 4: Analysis of Stress: Principal Stresses
Chapter 5: Analysis of Strain: Principal Strains
Chapter 6: Strain Energy, Resilience and Impact Loading
Chapter 7: Theories of Elastic Failure
Part II: Bending Stresses in Beams
Chapter 8: Centroids and Moments of Inertia of Plane Areas
Chapter 9: Shear Force and Bending Moment
Chapter 10: Bending Stresses in Beams
Chapter 11: Shearing Stresses in Beams
Chapter 12: Deflection of Beams: I Double Integration Method
Chapter 13: Deflection of Beams: II Area Moment Method
Chapter 14: Deflection of Beams: III Conjugate Beam Method
Chapter 15: Deflection of Beams: IV Strain Energy Method
Chapter 16: Fixed Beams
Chapter 17: Continuous Beams
Part III: Combined Direct and Bending Stresses
Chapter 18: Combined Direct and Bending Stresses
Chapter 19: Masonry Structures (Retaining Walls, Dams and Chimneys)