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This volume focuses on the practical application of processes for manufacturing plastic products. It includes information on design for manufacturability (DFM), material selection, process selection, dies, molds, and tooling, extrusion, injection molding, blow molding, thermoforming, lamination, rotational molding, casting, foam processing, compression and transfer molding, fiber reinforced processing, assembly and fabrication, quality, plant engineering and maintenance, management.
Part of the renowned Tool and Manufacturing Engineers Handbook Series, the Machining Vol. 1 helps you apply cost-effective techniques to achieve the best results for over 100 traditional and nontraditional machining processes. Chapters include: Principles of Metalcutting and Machinability, Tolerance Control, Cutting Tool Materials, Sawing, Broaching, Planing, Shaping, and Slotting, Turning and Boring, Milling, Grinding, Threading Gear and Spline Production, Nontraditional Machining, Machine Loading and Unloading, Machine Rebuilding, and much more!
You'll rely on Forming to help you understand over 50 forming processes plus the advantages, limitations, and operating parameters for each process. Save valuable production time and gain a competitive edge with practical data that covers both the basics and advanced forming processes. Forming also helps you choose the most appropriate materials, utilize innovative die designs, and assess the advantages and limitations of different press types and processes.
Let our teams of experts help you to stay competitive in a global marketplace. It is every company's goal to build the highest quality goods at the lowest price in the shortest time possible. With the Manufacturing Engineering Handbook you'll have access to information on conventional and modern manufacturing processes and operations management that you didn't have before. For example, if you are a manufacturing engineer responding to a request for proposal (RFP), you will find everything you need for estimating manufacturing cost, labor cost and overall production cost by turning to chapter 2, section 2.5, the manufacturing estimating section. The handbook will even outline the various manufacturing processes for you. If you are a plant engineer working in an automotive factory and find yourself in the hot working portion of the plant, you should look up section 6 on hot work and forging processing. You will find it very useful for learning the machines and processes to get the job done. Likewise, if you are a Design Engineer and need information regarding hydraulics, generators & transformers, turn to chapter 3, section 3.2.3, and you’ll find generators & transformers. Covering topics from engineering mathematics to warehouse management systems, Manufacturing Engineering Handbook is the most comprehensive single-source guide to Manufacturing Engineering ever published.
The TMEH Desk Edition presents a unique collection of manufacturing information in one convenient source. Contains selected information from TMEH Volumes 1-5--over 1,200 pages of manufacturing information. A total of 50 chapters cover topics such as machining, forming, materials, finishing, coating, quality control, assembly, and management. Intended for daily use by engineers, managers, consultants, and technicians, novice engineers or students.
Selecting the Right Manufacturing Improvement Tools offers an easy-to-read and comprehensive review of the most important current industrial improvement tools that every manufacturing or industrial executive, operational manager or engineer needs to know, including which tool to use for a particular type of manufacturing situation. But his book goes beyond a simple comparison of improvement tools to show how these tools can be implemented and supported. Instead, it offers a broader strategic explanation of how they relate to one another, and their relative strengths and weaknesses in the larger context of the entire enterprise. It demonstrates how to use these tools in an integrated way such that they are not just be viewed as another "program of the month or management fad. Selecting the Right Manufacturing Improvement Tools guides the use of these individual management tools within the need for aligning the organization, developing leadership, and managing change, all for creating an environment where these tools will be more successfully applied. - Provides an excellent review of the most popular improvement tools and strategies - Lean Manufacturing, Kaizen, including 5S, Kanban, Quick Changeover, and Standardization, Total Productive Maintenance, Six Sigma, Supply Chain Management, Reliability Centered Maintenance, Predictive Maintenance (or Condition Monitoring), and Root Cause Analysis. - Illustrates the use of each tool with case studies, using a fictitious company called "Beta International," which continues its journey to business excellence from author's previous book, Making Common Sense Common Practice - Describes the foundational elements necessary for any tool to work - leadership, organizational alignment and discipline, teamwork, performance measurement, change management, and the role of innovation. - Concludes with a recommended hierarchy for the use of the various tools, and provides enough information so that individual circumstances and issues can be related to these improvement tools, making better decisions and having greater business success.
Never before have the wide range of disciplines comprising manufacturing engineering been covered in such detail in one volume. Leading experts from all over the world have contributed sections. The coverage represents the most up to date survey of the broad interests of the manufacturing engineer. Extensive reference lists are provided, making this an indispensable work for every engineer in industry.Never before have the wide range of disciplines comprising manufacturing engineering been covered in such detail in one volume. Leading experts from all over the world have contributed sections. Materials and processes are described, as well as management issues, ergonomics, maintenance and computers in industry. CAD (Computer Aided Design), CAE (Computer Aided Engineering), CIM (Computer Integrated Manufacturing) and Quality are explored at length. The coverage represents the most up-to-date survey of the broad interests of the manufacturing engineer. Extensive reference lists are provided, making this an indispensable work for every engineer in industry.
Revised and updated introduction, useful as a reference source for engineers and managers or as a text for upper-level undergraduate and graduate courses in technical colleges and universities. Includes end-of-chapter questions (an answer book is provided for teachers). Annotation copyright Book New
Provides the methods and tools for the manufacturing manager to improve quality, increase productivity, and enhance the competitive position of the manufacturing line. Proposes potentially controversial methods of performance appraisals, operation certification, line qualification, vendor certification, and just-in-time manufacturing. The organization of this book takes the reader logically from the basics of statistics through the fundamentals of statistical quality control, to the manufacturing applications and accompanying manufacturing strategies of statistical quality control (SQC). This book is the first written specifically for manufacturing management. Examples throughout the book demonstrate how the manufacturing manager can successfully implement SQC in the manufacturing process. Real-life manufacturing situations described illustrate situations managers are likely to find in their own line.