Best Reference Books – Cutting Tools Theory and Design

We have compiled the list of Top 10 Best Reference Books on Cutting Tools Theory and Design subject. These books are used by students of top universities, institutes and colleges. Here is the full list of top 10 best books on Cutting Tools Theory and Design along with reviews.

Kindly note that we have put a lot of effort into researching the best books on Cutting Tools Theory and Design subject and came out with a recommended list of top 10 best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on "Cutting Tools Theory and Design" as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.

1. “CNC Machining Technology: Volume I: Design, Development and CIM Strategies: 1” by Graham T Smith

“CNC Machining Technology: Volume 1: Design, Development and CIM Strategies” Book Review: This text provides a framework of the origins and development of CNC machine tools. It is the first volume of 3 which jointly provides a complete account of CNC Machining Technology. The book is categorized into 2 parts where the 1st part addresses the make of an equipment and various elements necessary to ensure high quality of production. The second part of the text explains the purchase of cells or systems by a company and the emphasis on simulation exercises before a complete implementation. Networking topologies and communication protocols are also explored along with high-speed machining developments and the aim for extreme precision. Recommended for practising manufacturing and production engineers. It explains the design of turning and machining centres, operation through part programming languages, and networking of stand alone machine tools into flexible manufacturing systems. A case study on an automated factory in Europe is also provided to study a complete computer integrated manufacturing system.

2. “Sculptured Surface Machining: Theory and applications” by Byoung K Choi and Robert B Jerard

“Sculptured Surface Machining: Theory and Applications” Book Review: A text which details on the recent research development and the chief issues affecting SSM development. This book is a valuable resource for reference and investigates topics like fundamental mathematical tools, SSM-progress models, process planning models and key tool path generator (TPG) along with ‘C-space’ based TPG methods and ‘cloud-of-points’ data machining. It explores all features of SSM, from SSM process models to SSM software design methodologies. It introduces a feature-based CAPP (computer automated process planning) methodology for sculptured surface machining. Also documents practical applications of NC machining technologies.Recommended for manufacturing engineers producing products with sculptured surfaces, software engineers working with CAD/CAM software, and researchers in the areas of mechanical, production and industrial engineering, and computer science.

3. “Analysis of Material Removal Processes (Mechanical Engineering Series)” by Warren R DeVries

“Analysis of Material Removal Processes (Mechanical Engineering Series)” Book Review: This text documents the important part of a large scale manufacturing system: cutting and grinding of metal removal processes. It discusses mainly on the modelling features that proposes the common demands of how to control, remove or change metal removal process. Suitable for undergraduates and post graduates in engineering and a valuable resource for professionals in industries dealing with planning, improving or designing metal removal processes. Throughout this book highlights the fact that process planning is the manufacturing design activity that gives an accompaniment to product design. Topics included in this edition are modelling and mechanisms of machining technology that supports analysis into process planning. Mechanics, cutting edge materials and wear, machining and grinding processes required for the planning of material removal processes are also discussed. Simple analytical and empirical models are used to predict forces, bulk temperatures and surface roughness, and estimate unit processing times. Machining economics and machine tool stability are given particular chapters in this edition. Another chapter is completely dedicated to metrology, experimental design, tolerance and quality that are significant in providing empirical data for new processes and measuring the performance of operating processes.

4. “Engineering Design Synthesis: Understanding, Approaches and Tools” by Amaresh Chakrabarti

“Engineering Design Synthesis: Understanding Approaches and Tools” Book Review: This book combines research papers tackled on the field of design synthesis. It presents topics on the constitution and influence on synthesis, main approaches to synthesis, and various tools created to support this important design task. The chapters include concepts of ‘cutting edge’ research and traditional methods, all major generic synthesis approaches – composition, retrieval, change and repair. Applications and examples are found in areas of architecture and engineering in addition to clocks, sensors and medical devices. A suitable text for those interested in research under this domain and for teachers and professionals in the field of engineering design. Questions and worked out examples are provided at the end of each chapter for better understanding and for exam preparation.

5. “Metal Cutting Theory and Practice: 49 (Manufacturing Engineering and Materials Processing)” by David A Stephenson

“Metal Cutting Theory and Practise” Book Review: This text provides an understanding on the advanced tool materials, physical theory and research understanding of metal cutting processes. The book starts with an introduction on the scope of the subject, historical development and types of production and the chapters concentrate on metal cutting operations and machine tools, cutting tools, toolholders and workholders, chip formation, mechanics of cutting, cutting temperatures, cutting process simulation, tool life, surface finish, machinability of materials, machining dynamics, machining economics and optimization. Numerical examples and references are given for the reader to understand and learn the practical aspects of the concepts.

6. “Advanced Machining Processes of Metallic Materials: Theory, Modelling, and Applications” by Wit Grzesik

“Advanced Machining Processes of Metallic Materials: Theory, Modelling and Applications” Book Review: This text strikes a balance between the theoretical and practical aspects of metal cutting processes. It also presents emerging applications of machining technology such as micro and nano technology in addition to traditional manufacturing. This edition covers new case studies, metal cutting processes applicable to various technical, engineering and scientific levels, and latest information on standards, cutting tool materials and tools, recent machining technologies, relevant machinability records, optimization techniques, and surface integrity. The book begins with metal cutting operations and terminology, trends in metal cutting theory and practise, cutting tool materials, modelling and simulation of machining processes and operations, orthogonal and oblique cutting mechanics, chip formation and control, cutting vibrations, heat in metal cutting, cutting fluids, tribology of metal cutting, tool wear and damage, machinability of engineering materials, machining economics and optimization, advanced machining processes, micro machining, nano manufacturing/nanotechnology, sensor assisted machining, virtual/digital and internet based machining, and surface integrity. This book is in the format of a collection of research papers.

7. “Production Planning in Automated Manufacturing” by Yves Crama and Alwin G Oerlemans

“Production Planning in Automated Manufacturing” Book Review: Written in a simple and user-friendly way, this text documents the approaches for production planning problems in automated manufacturing. Topics covered in this text include automated manufacturing, throughput rate optimization in the automated assembly of printed circuit boards, approximation algorithms for 3-dimensional assignment problems with triangle inequalities, scheduling jobs of equal length: complexity, facets and computational results, tool loading problem: an overview, column generation approach to job grouping, job grouping problem for flexible manufacturing systems: some extensions, local search approach to job grouping, and minimizing the number of tool switches on a flexible machine. References are provided at the end of each chapter.

8. “Modeling and Planning of Manufacturing Processes (Vdi-Buch)” by Fritz Klocke

“Modelling and Planning of Manufacturing Processes” Book Review: This text documents on the different kinds of numerical modelling methods for manufacturing processes such as forming, cutting, grinding, technology planning and design of process chains. Basic approaches in modelling, attitude towards industrial applications for different modelling methods, empirical, analytical and numerical models are also discussed. Finite Element Method (FEM), their applications in design of new manufacturing tools, analysis of complex forming processes using FEM, design and analysis for metal forming processes are portrayed in much detail.

9. “Sustainable Machining (Materials Forming, Machining and Tribology)” by J Paulo Davim

“Sustainable Machining: Materials Forming, Machining and Tribology” Book Review: A text which addresses the present sustainable machining techniques. Recommended for final undergraduate engineering students and postgraduate students undertaking manufacturing engineering and those interested in manufacturing and machining technology. It is also a valuable resource for academicians, researchers, mechanical, manufacturing, industrial, environmental and materials engineers and professionals in machining technology and related industries. Contents of this book include improving sustainability of machining operation as a system endeavour, use of vegetable based cutting fluids for sustainable machining, incorporating energy efficiency in performance measures of machining: experimental investigation and optimization, and ice jet machining: a sustainable variant of abrasive water jet machining.


“Machine Tools and Digital Manufacturing” Book Review: A comprehensive and descriptive text on machine tools and its manufacturing. This book has 6 chapters namely theory of metal cutting, general purpose machine tools, reciprocating machines or other machine tools, milling machines, grinding machines, and introduction to digital manufacturing where each chapter is again classified into different subchapters for easy understanding. Solved examples and more numericals are provided at the end of each chapter. Illustrative figures and drawings are provided for better understanding from the theory. Tabular columns best explain the complex descriptions in a simpler way.

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Manish Bhojasia, a technology veteran with 20+ years @ Cisco & Wipro, is Founder and CTO at Sanfoundry. He is Linux Kernel Developer & SAN Architect and is passionate about competency developments in these areas. He lives in Bangalore and delivers focused training sessions to IT professionals in Linux Kernel, Linux Debugging, Linux Device Drivers, Linux Networking, Linux Storage, Advanced C Programming, SAN Storage Technologies, SCSI Internals & Storage Protocols such as iSCSI & Fiber Channel. Stay connected with him @ LinkedIn | Youtube | Instagram | Facebook | Twitter