40 Best Books on Fracture Mechanics

“Fatigue and Fracture Mechanics: 31st Volume” Book Review: This book explains the relationship between mechanical material behaviour and the design of structural machine components. It covers a wide range of materials that are used in high-performance structural applications like aerospace components and power generation systems. The book is primarily concerned with metallic materials, but it also discusses the special properties of important nonmetals. This book will be useful for mechanical, materials engineers and designers.

“Fracture, Fatigue, Failure and Damage Evolution, Volume 7: Proceedings of the 2017 Annual Conference on Experimental and Applied Mechanics” Book Review: The contributions to this important area of research and engineering are collected in this book. It covers a broad range of topics, including energy and energetic materials mechanics, vibration effects in fracture and fatigue, composite fracture and fatigue, fracture of brittle and ductile materials, and interfacial fracture.

“Fatigue and Fracture Mechanics: v. 33 (Special Testing Publications)” Book Review: This book explains the relationship between mechanical material behaviour and the design of structural machine components. It covers a wide range of materials that are used in high-performance structural applications like aerospace components and power generation systems. The book is primarily concerned with metallic materials, but it also discusses the special properties of important nonmetals. This book will be useful for mechanical, materials engineers and designers.

“Fatigue and Fracture Mechanics” Book Review: This book explains the relationship between mechanical material behaviour and the design of structural machine components. It covers a wide range of materials that are used in high-performance structural applications like aerospace components and power generation systems. The book is primarily concerned with metallic materials, but it also discusses the special properties of important nonmetals. This book will be useful for mechanical, materials engineers and designers.

“Advances in Fatigue, Fracture and Damage Assessment of Materials: 6 (Advances in Damage Mechanics)” Book Review: The basic elements and theories of fracture and damage analysis are presented in this book. It covers recent research and advancements in the development of analytical and practical methods for assessing material damage and structural durability. This book will be useful for post-graduate students and engineers.

“Problems of Fracture Mechanics and Fatigue: A Solution Guide” Book Review: The purpose of this book is to discuss engineering design, which is the process of determining the geometry and dimensions of machine or structural elements. Material selection in such a way that the components perform their functions in an efficient, safe, and cost-effective manner. Fracture mechanics is a scientific discipline that aims to explain these phenomena.

“Fatigue Failure of Metals (Fatigue and Fracture)” Book Review: This book studies the phenomena of fatigue in metals thereby concentrating on the formation and growth rate of the cracks. The book also provides an understanding of the sphere of metal fatigue. The book in addition also contains the result of micrographic studies and very interesting micrographs of dislocation structures. The book also carries out the critical analysis of various notions related to the fatigue failure of metals. The book also includes new facts and findings that are done in this field. This book describes research into the phenomena of fatigue in metals, particularly the formation and rate of crack growth. Their findings add to our understanding and provide new insight into the field of metal fatigue, which is highly interdisciplinary.

“Analysis of Fracture Toughness Mechanism in Ultra-fine-grained Steels: The Effect of the Treatment Developed in NIMS (NIMS Monographs)” Book Review: This book contains the analysis performed on fracture toughness mechanism in ultra-fine grain steels. Topics mentioned are ultrafine grain steel, Tensile properties, fracture toughness. This treatment was developed in the National Institute of material science situated in Japan. Mechanical properties and structure control are introduced in this book. This book is beneficial for material science and food process engineering students.

“Fatigue and Fracture Mechanics of High Risk Parts: Application of LEFM and FMDM Theory” by Bahram Farahmand and George Bockrath Book Review: The book entails the preliminary stage of designing new structural hardware and contains several factors which the designer should consider. The book contains a comprehensive analysis that consists of static, dynamic, fatigue and fracture. The book lays emphasis on various problems which contain the prevention of failures resulting from pre existing cracks in the parent material, welds or that develop under cyclic loading environment during the life of the structure. The book is written for designer and strength analyst as well as for the material and process engineer. The book talks about the importance of fatigue and fracture in nuclear, pressure vessels, aircraft, and aerospace structural hardware.

“The Practical Use of Fracture Mechanics” Book Review: This book is a practical approach on the subject. Their applications are discussed. It gives solutions to common practical problems as well. This helps in a better understanding. A background is given to properly understand the issues.

“Failure Analysis of Engineering Materials (Mcgraw-Hill Professional Engineering)” Book Review: This book is a valuable resource for solving, correcting, and avoiding critical material failure problems. It is well organized and presented in a manner easy for students and teachers to apprehend. It provides the readers with expert investigation and analysis of component failures. This book is ideal for failure inquiries involving metals, ceramics, plastics, composites, and electronic materials. It provides practical, hands-on help on selecting and justifying analytical methods. It provides pinpoint fracture type with comparative fractographs. This book is readable and understandable. This book is for researchers and students.

“Damage and Fracture Mechanics: Failure Analysis of Engineering Materials and Structures” Book Review: This book explains the failure Analysis of Engineering Materials and Structures. It describes the field of fracture mechanics. This book gives the industrial, academic, private sector and governmental levels. It is helpful for researchers and engineers. It provides the development of methods and approaches on Damage and Fracture Mechanics. This book is readable and understandable. This book is for researchers and students.

“Metal Fatigue in Engineering” Book Review: This book is a Second Edition. This book is for students and practicing engineers. It explains the design, development, and failure analysis of components, structures, and vehicles. This book describes the applied engineering design. This book provides the fatigue design and fatigue life estimations for metals. It contains worked examples and hundreds of problems. It also includes the references, figures and chapter summaries. This book also provides the micro/macro fatigue mechanisms. It also describes the notch strain analysis and fatigue crack growth at notches. This book also includes residual stresses, digital prototyping, and fatigue design of weldments. It also explains non proportional loading and critical plane approaches for multiaxial fatigue.

“Applied Reliability: Fracture Mechanics 2 (Mechanical Engineering and Solid Mechanics)” Book Review:This book summarizes the Fracture Mechanics. It explains the range of statistical distributions. It describes mechanical reliability. It also gives the reliability of repairable or unrepairable systems. This book also explains the criteria of failures. It also gives Bayesian applied probability. It even includes Markov chains and Monte Carlo simulation. This book is helpful for technicians, engineers, designers, students, and teachers.

“Handbook of Materials Failure Analysis with Case Studies from the Aerospace and Automotive Industries” Book Review: This book explains the certain situations, covering important scenarios. It describes the material defects and mechanical failure. It deals with improper design, corrosion and surface fracture. It also gives the materials failure analysis. This book helps us understand the most common types of materials failure and analysis.It also explains the balanced coverage of failure analysis and combining foundational knowledge. It also describes the current research on the latest developments, and innovations in the field. This book also explains the forensic investigation and failure of materials. It also gives the static failure analysis and dynamic failure analysis. This book also provides the fatigue life prediction, rotorcraft and failure prediction. It also includes the fatigue crack propagation, bevel pinion failure, gasketless flange and thermal barrier coatings. This book gives the time of failure, history of equipment and its operation. It deals with corrosion product sampling, metallurgical and electrochemical factors.

“Deformation and Failure in Metallic Materials (Lecture Notes in Applied and Computational Mechanics)” Book Review: This book deformation and failure in metallic materials. It describes the damage and fracture of metallic materials. It also deals with the mathematical foundation, modelling and numerics. This book is helpful for technicians, engineers, designers, students, and teachers.

“Stochastic Modeling of Thermal Fatigue Crack Growth (Applied Condition Monitoring)” Book Review: This book explains the thermal-fatigue crack-growth in mixing tees. It also describes the development of a frequency-temperature. This book describes the function in the framework of single-input. It also deals with single-output (SISO) methodology. It also explains the variability of material properties. This book also gives probabilities of failure by considering a limit state function. It also describes the thermal fatigue crack. This book is helpful for undergraduate students, young scientists and researchers.

“Metal Failures: Mechanisms, Analysis, Prevention” Book Review: This book covers not only how failure occurs but also examines methods developed to expose the reasons for failure. This book features updates to all chapters and new coverage of elastic behavior and plastic deformation. It covers the phenomenological aspects of fatigue, localized necking, fatigue crack propagation, alloys and coatings, tensors, and tensor notations, and much more. It shows proven methods of examination and analysis and enables investigators to conduct successful investigations of causes of metal failures. It is an excellent learning tool for students in mechanical, materials, aerospace, and civil engineering.

“Failure Analysis Case Studies II” Book Review: This book provides the analysis of engineering failures. It explains the design and manufacture for greater safety and economy. It also deals with the overload, creep and brittle fracture. It also provides fatigue, environmental attack, environmentally assisted cracking. This book is helpful for professionals and students.

“Experimental Stress Analysis for Materials and Structures (Springer Series in Solid and Structural Mechanics)” Book Review: This book explains the methods of experimental stress analysis. It describes the major technical interest and highlighting aspects. This book deals with stress analysis assists. This book describes the development of phenomenological theories. It also deals with measurement and control of system parameters. This book also provides loads on structures, verification of stress states. This book includes material damage, and reliability analysis of artifacts. It interests the graduate students and professionals.

“Fracture Mechanics: Fundamentals and Applications” Book Review: This book acts as a handbook to engineers and an introductory guide to anyone aspiring to gain knowledge in the field. It is a good guide to know about fatigue and fracture of materials and how they are found. The book contains various examples and problems. It approaches the corresponding topics in-depth making the readers an expert in the field. It even includes the new methods of testing that’s been improving as the advancements in the field increase.

“Fractography” Book Review: This particular book describes ways of studying the surface topography based on the material. It explains fractography which has numerous applications in the various disciplines of science. This book provides the basis for an understanding of deformation and fracture in all solids and interpret their topography. It is a good source of knowledge for undergraduate and graduate students, researchers, industrialists, engineers and anyone interested in material science. A few SEM photographs intermingled with theoretical notes helping the user understand the crystallography better.

“Deformation and Fracture Mechanics of Engineering Materials” Book Review: Along with providing a combined fracture mechanics-materials approach to the fracture of engineering solids with comprehensive treatment it provides detailed explanations and references. It is a gift for students and engineers. It even consists of case studies for better understanding. It maintains a perfect balance between the continuum mechanics and the roles of nano- and microstructures as they influence the mechanical properties of materials. It is well-written that it doesn’t just cover topics, but gives in-depth information for anyone seeking it. It is a must have for metallurgists.

“Deformation and Fracture of Solid-State Materials: Field Theoretical Approach and Engineering Applications” Book Review: This book gives a summary of the local symmetry for the engineers and physicists. The theory in the book describes the stages of deformations comprehensively for the readers or learners to understand. Although not a manual, this book succeeds in educating enthusiasts to apply physical concepts to engineering and enhance daily lives. The comprehensive approach is possible because the theory is based on a fundamental physical principle called the local symmetry, or gauge invariance, as opposed to phenomenology.

“Acoustic Emission and Related Non-destructive Evaluation Techniques in the Fracture Mechanics of Concrete” Book Review: This division of applied sciences is currently in high demand and therefore, the book is an authoritative guide to research and application of acoustic emission and non-destructive evaluation techniques. In order to formulate predictions on their stability and to estimate their safety, it is necessary to identify damage signals and to determine their causes. The book helps understand the identification process for the better advancements in the subject. It is an essential resource for the civil engineers and others in the construction industry.

“High Sensitivity Moiré: Experimental Analysis for Mechanics and Materials (Mechanical Engineering Series)” Book Review: The main focus in the book is on the mechanics and micromechanics of materials and structural elements and the book includes new studies published for the first time. Moire interferometry provides whole-field maps of the in-plane displacements. All the methods can be applied for whole-field measurements on nearly and solid bodies. The book’s target groups are engineers and scientists concerned with fields working with measurements. It also stimulates students to pursue the treasures of experimental analysis.

“Solid Mechanics Research for Quantitative Non-destructive Evaluation” Book Review: This book acts as the source of fundamentals in the scientific understanding of solid mechanics. The book helps systematically approach the problem. Identifying the various scales at which material and structural response and failure occur is the first step. Theoretical and computational approaches are explained to explore the details of the physical processes. It explains the natural evolution that all new systems must generally operate in more demanding environments than the systems they replace. The scientific trends make it essential that a well founded scientific base for the nondestructive detection and assessment of subcritical flaws is essential and this book provides and its target are engineers and enthusiasts.

“Structural and Residual Stress Analysis by Nondestructive Methods” Book Review: This timely book provides a comprehensive review of the nondestructive techniques for strain evaluation written by experts in their respective fields. The main focus of the book deals with X-ray stress analysis. It also contains data, recommendations, hints, etc., required in laboratories for the accreditation of their stress analysis. The book also discusses the active topics and the unsolved mysteries. The assessment of the experimentally determined residual and structural stress states on the static and dynamic behavior of materials and components is handled in a separate chapter. This book is for the engineers, scientists and industrialists.

“Nondestructive Evaluation: A Tool in Design, Manufacturing and Service” Book Review: Since the Nondestructive Evaluation is a prime requirement, the book introduces and shows the basic techniques used in the field. The examples for each of the techniques are illustrated with examples for the good understanding of the subject. This book is for aspiring engineers in the mechanical as well as civil branches and scientists working on this subject.

“Elementary Engineering Fracture Mechanics” Book Review: It is a concise textbook aimed at giving a general oversight of the field. The explanation on the subject is in a stage of early development. The methodologies have limited applicability. It provides rules for general application of fracture mechanics concepts. It talks about how comprehension of cracking and fracture behavior of materials and structures is steadily increasing. Further developments expected to be able to predict fracture safety and fracture characteristics based on advanced fracture mechanics procedures are discussed in the book. It expects readers must have a general understanding of the elementary concepts, which are provided by this volume. It also aims to treat the subject such that it may interest both metallurgists and engineers.

Book Review: This book deals with controlling fracture and fatigue failures in all types of structures. The book also provides introduction to the field of fracture mechanics from the point of an application. The book also stresses on the life extension of existing structures as well as demonstrates many case studies that present the applications of fracture mechanics. This book is useful for practicing engineers as well as graduate students. The book also demonstrates the development of fracture for different types of structures like bridges, planes, pipelines, ships, buildings and many more.

“Metal Fatigue and Fracture Testing and Analysis” Book Review: This book talks about fatigue and fracture testing that was performed on four engineering materials. It talks about utilizing compression pre-cracking techniques for large crack growth. It moves on to newly developed Single Edge Notched Bend specimen for small and naturally initiated cracks. It proves that fatigue crack growth simulation results have shown that both low-cycle and high-cycle fatigue can be modeled accurately as fatigue crack growth. It describes how testing has shown that the starting fatigue crack growth rate of any load-shedding test has significant influence on load history effects. It also proves that with lower starting rates yielding lower crack growth thresholds and faster rates.

“Fracture, Fatigue, Failure, and Damage Evolution” Book Review: This book brings together contributions to this important area of research and engineering. It represents early findings and case studies on a broad range of areas. The chapters covered include mixed mode fracture, emphasis on modeling, emphasis on experimental measurements, full field measurements of fracture, microscale, and microstructural effects on mechanical behavior like nanoscale effects, MEMS, microstructure, and shape memory alloys. It discusses fracture and fatigue composites and its applications in engineering, wave-based techniques, and acoustic emissions. It is good for under-graduate and graduate level courses.

“Metallurgical Failure Analysis” Book Review: Metallurgical failure analysis is crucially important to materials, metallurgical, and mechanical engineers who are responsible for the evaluation of faulty machinery and structural components. This book introduces the basic principles of conditions leading to fracture and the methods for determining the causes of failure in metal parts. It explains the methods for conducting a successful failure analysis, and describes the required tools used in making such assessments. It places emphasis on the analysis of fracture surfaces to determine why failure occurred. It includes fractographs that illustrate various fracture-surface topologies commonly encountered in fractures. It demonstrates case studies that use analytical tools.

“Metallography in Failure Analysis” Book Review: The book is mainly designed for students in engineering and for the people having an inclination towards the subject. It provides a detailed discussion of failure in materials due to the components. It is a very well designed book with very well distributed chapters about each and every type of failure happening in the real-time industry, the chapters also have a logical connection so that it’s easy for the readers to understand. The book fulfils its requirements of enlightening the world the reasons why the components of the materials should be given a great importance. It also includes a lot of case studies presented by well known researchers.

“Risk and Failure Analysis for Improved Performance and Reliability” Book Review: The main purpose of this book is to cover conferences that have been conducted over 150 scientists and engineers from academic institutions, industry and government who are exclusively qualified to explore in depth a subject of prime importance to the Department of Defense, the Army and the scientific community. This book addresses the areas of techniques of failure analysis, risk and failure analysis for design against fatigue, risk and failure analysis for design against fracture, environmental effects, elevated temperature effects, systems approach to production reliability integration and outlook on emerging needs and techniques.