Forged Precision


Book Description

**Discover the Art and Science of Knife Making with Forged Precision** Unlock the secrets of custom knife making with "Forged Precision," your ultimate guide to mastering the craft. Whether you're a budding hobbyist or a seasoned artisan, this comprehensive eBook walks you through every facet of creating stunning, functional blades—from initial design to final polish. **Chapter 1** introduces you to the principles of knife design and ergonomics, guiding you through sketching and prototyping your unique visions. Move smoothly into **Chapter 2** where you delve into steel selection and metallurgy, discovering the nuances between carbon and stainless steels, and the essentials of heat treatment. With **Chapter 3**, understand the anatomy of a knife blade, exploring various blade grinds and how to balance strength and sharpness. Continue to **Chapter 4**, which covers the must-have tools and equipment, ensuring you're well-equipped, from blacksmithing basics to modern machinery. Craft your knife blanks with confidence in **Chapter 5** and refine your forging techniques in **Chapter 6**, avoiding common mistakes. Elevate your skills in **Chapter 7** with advanced forging methods like creating spectacular Damascus steel. Perfect your knife through detailed grinding and finishing tips in **Chapter 9**, followed by an in-depth lesson on handle material selection and construction in **Chapters 10 and 11**. Embellish your creations with decorative techniques, including engraving and inlays in **Chapter 12**. Secure and present your knife with custom sheaths crafted in **Chapter 13**, then maintain and sharpen your blade to perfection as detailed in **Chapter 14**. Absorb invaluable wisdom from master blacksmiths in **Chapter 15**, and practice with varied projects in **Chapter 16** to hone your skills. Troubleshoot common issues in **Chapter 17** and optimize your workshop setup in **Chapter 18**. Navigate legal and ethical considerations in **Chapter 19**, and learn how to document and showcase your work to the world in **Chapter 20**. Ready to turn your passion into profit? **Chapter 21** covers everything from branding to marketing strategies. Join the vibrant knife making community in **Chapter 22**, embrace future trends in **Chapter 23**, and reflect on your craftsmanship journey in **Chapter 24**. Forge your path to excellence with "Forged Precision"—the essential eBook for every knife maker. Dive in and transform raw steel into breathtaking artistry.




Forging Equipment, Materials, and Practices


Book Description

The handbook provides design engineers with up-to-date information about the many aspects of forging including descriptions of important developments made more recently by industry and/or government. The handbook describes suitable measures for in-process quality control and quality assurance, summarizes relationships between forging practices and important mechanical properties and compares various forging devices to aid in equipment selection. Attention is also given to describing practices for relatively new materials and emerging forging practices. (Modified author abstract).




Precision Forging Technology and Equipment for Aluminum Alloy


Book Description

This book takes the advanced precision forging technology of aluminum alloy parts as the main line, presents the content of precision forging process analysis, process parameter design, mold structure design, numerical simulation of forming process, and process test, combined with a large number of application examples classified according to the structural characteristics of parts. It introduces the theoretical basis of several new technologies and new equipment for precision forging, including the small flash precision forging technology, flow control forming technology, casting and forging combined forming technology, and new CNC precision forging hydraulic presses and servo hydraulic presses, which inspire readers to innovate on new technology and new equipment development.This book provides readers with the latest knowledge of aluminum alloy precision forging, which is of great reference value in the context of the current increasing attention to lightweight and the increasing application of aluminum alloy parts in automotive, aerospace, marine, and other fields. This book can be used as a reference book for engineering and technical personnel engaged in aluminum alloy forging technology and can also be used as a reference book for researchers, undergraduates, and graduate students interested in materials processing.




Parts Fabrication


Book Description

Today's fast-paced manufacturing culture demands a handbook that provides how-to, no-holds-barred, no-frills information. Completely revised and updated, the Handbook of Manufacturing Engineering is now presented in four volumes. Keeping the same general format as the first edition, this latest edition not only provides more information but makes it more accessible. Each individual volume narrows the focus while broadening the coverage, giving you immediate access to the information you need. Volume Three, Parts Fabrication: Principles and Process discusses efficient deductive and systematic approaches to machine debugging while providing a refresher on the principles of structural mechanics. Edited by Richard Crowson with contributions from experts in each field, the book focuses on establishing communication between manufacturing and design engineers and machine-building technicians. The discussions of engineering design fundamentals, free-body diagrams, stresses, forces, and strength of materials help readers understand and solve counter-intuitive problems. The coverage includes material characteristics of metals, conventional fabrication processes, laser welding, modeling, and nontraditional machining methods. Assisting design engineers and machine builders in the successful execution of their tasks, the book recommends steps to improve technical problem solving and communication techniques. It provides understanding of how to incorporate deductive reasoning, systematic engineering, human interaction, and corporate cultural influences into manufacturing processes.




Superalloys


Book Description

This book covers virtually all technical aspects related to the selection, processing, use, and analysis of superalloys. The text of this new second edition has been completely revised and expanded with many new figures and tables added. In developing this new edition, the focus has been on providing comprehensive and practical coverage of superalloys technology. Some highlights include the most complete and up-to-date presentation available on alloy melting. Coverage of alloy selection provides many tips and guidelines that the reader can use in identifying an appropriate alloy for a specific application. The relation of properties and microstructure is covered in more detail than in previous books.




USITC Publication


Book Description




Gear Materials, Properties, and Manufacture


Book Description

All of the critical technical aspects of gear materials technology are addressed in this new reference work. Gear Materials, Properties, and Manufacture is intended for gear metallurgists and materials specialists, manufacturing engineers, lubrication technologists, and analysts concerned with gear failures who seek a better understanding of gear performance and gear life. This volume complements other gear texts that emphasize the design, geometry, and theory of gears. The coverage begins with an overview of the various types of gears used, important gear terminology, applied stresses and strength requirements associated with gears, and lubrication and wear. This is followed by in-depth treatment of metallic (ferrous and nonferrous alloys) and plastic gear materials. Emphasis is on the properties of carburized steels, the material of choice for high-performance power transmission gearing.




Manufacturing Processes 4


Book Description

This book provides essential information on metal forming, utilizing a practical distinction between bulk and sheet metal forming. In the field of bulk forming, it examines processes of cold, warm and hot bulk forming, as well as rolling and a new addition, the process of thixoforming. As for the field of sheet metal working, on the one hand it deals with sheet metal forming processes (deep drawing, flange forming, stretch drawing, metal spinning and bending). In terms of special processes, the chapters on internal high-pressure forming and high rate forming have been revised and refined. On the other, the book elucidates and presents the state of the art in sheet metal separation processes (shearing and fineblanking). Furthermore, joining by forming has been added to the new edition as a new chapter describing mechanical methods for joining sheet metals. The new chapter “Basic Principles” addresses both sheet metal and bulk forming, in addition to metal physics, plastomechanics and computational basics; these points are complemented by the newly added topics of metallography and analysis, materials and processes for testing, and tribology and lubrication techniques. The chapters are supplemented by an in-depth description of modern numeric methods such as the finite element method. All chapters have been updated and revised for the new edition, and many practical examples from modern manufacturing processes have been added.




Advances in Manufacturing Technology XVI - NCMR 2002


Book Description

Advances in Manufacturing Technology XVI provides a comprehensive collection of papers exploring the very latest developments in the field of manufacturing engineering and managment and incorporates the most up-to-date techniques. TOPICS COVERED INCLUDE: Business strategies process reengineering CAD/CAM and concurrent engineering E-manufacturing and virtual reality Engineering modelling and simulations Total quality management and metrology Intelligent systems. robotics and automation Lean and agiel manufacturing Machining process and tooling Operations management Process control and condition monitoring Covering all aspects of manufacturing engineering, systems, and management this volume will be of great interest to those wanting to keep abreast pf current research and those involved in the planning stages in this area of engineering.




The Development of Gas Turbine Materials


Book Description

The turbine has many advantages over other prime movers for producing power. The first turbine used water as the working fluid and this principle is still used in hydro-electric power generation. The steam turbine was developed late in the nineteenth century and was first applied to marine propulsion by Parsons in 1897. Since that time it has become the most widely used prime mover in electricity generation and marine propulsion. The equipment required to generate steam is bulky however and it was realised that much more compact power plant could be designed if the hot gases used for steam generation could drive the turbine directly. Early attempts to produce gas turbines were unsuccessful for several reasons, one major problem being that materials with the capability of operating at sufficiently high stresses and temperatures were not available. Following the first experimental Whittle engine in 1937, the emphasis on the development of the gas turbine engine for aircraft propulsion during World War II changed this situation dramatically. Gas turbine powered civil aircraft entered airline service in the early 1950s and gas turbines also began to compete successfully in other fields. Apart from the aircraft market, they have been used widely in pumping sets for oil and gas transmission pipelines and peak load electricity generation. Use in warship propulsion is increasing and there is currently major activity, in the USA in particular, in developments for vehicular propulsion.