Welcome to our book review site go-pdf.online!
You may have to Search all our reviewed books and magazines, click the sign up button below to create a free account.
Turning Wood with Carbide Tools
Everything a woodturner needs to know about using and implementing the exciting new technology of replaceable carbide cutting tips is included in this guide. Woodturning tools have taken a quantum leap since the recent introduction of these tips that have greatly simplified the task of turning in dry stock. Carbide-tipped woodturning tools are safer, faster, easier, and more efficient than traditional tools that require grinding the end of a piece of fluted steel to one of dozens of subjective profiles. The technology of the carbide cutters is fully explained, as are the various shafts and the function of the handle designs, providing insight into how and why these cutters act as they do, and why they are shaped as they are. Removing the intimidating aspects of turning, the guide explains the elimination of sharpening, addresses the issues of chatter and fatigue, and advises on maintenance, techniques, and usage. A number of projects are included--such as a candlestick, spinning tops, and a basic bowl--that can be completed right away by novice turners, rather than waiting for years to gain enough experience to do the same job with traditional tools.
Ceramic Cutting Tools
Interest in ceramics as a high speed cutting tool material is based primarily on favorable material properties. As a class of materials, ceramics possess high melting points, excellent hardness and good wear resistance. Unlike most metals, hardness levels in ceramics generally remain high at elevated temperatures which means that cutting tip integrity is relatively unaffected at high cutting speeds. Ceramics are also chemically inert against most workmetals.
Cutting Tool Technology
It is a well acknowledged fact that virtually all of our modern-day components and assemblies rely to some extent on machining operations in their manufacturing process. Thus, there is clearly a substantive machining requirement which will continue to be of prime importance for the foreseeable future. Cutting Tool Technology provides a comprehensive guide to the latest developments in the use of cutting tool technology. The book covers new machining and tooling topics such as high-speed and hard-part machining, near-dry and dry-machining strategies, multi-functional tooling, ‘diamond-like’ and ‘atomically-modified’ coatings, plus many others. Also covered are subjects important from a research perspective, such as micro-machining and artificial intelligence coupled to neural network tool condition monitoring. A practical handbook complete with troubleshooting tables for common problems, Cutting Tool Technology is an invaluable reference for researchers, manufacturers and users of cutting tools.
Fundamentals of Modern Manufacturing
Engineers rely on Groover because of the book’s quantitative and engineering-oriented approach that provides more equations and numerical problem exercises. The fourth edition introduces more modern topics, including new materials, processes and systems. End of chapter problems are also thoroughly revised to make the material more relevant. Several figures have been enhanced to significantly improve the quality of artwork. All of these changes will help engineers better understand the topic and how to apply it in the field.
Machining of Titanium Alloys
This book presents a collection of examples illustrating the resent research advances in the machining of titanium alloys. These materials have excellent strength and fracture toughness as well as low density and good corrosion resistance; however, machinability is still poor due to their low thermal conductivity and high chemical reactivity with cutting tool materials. This book presents solutions to enhance machinability in titanium-based alloys and serves as a useful reference to professionals and researchers in aerospace, automotive and biomedical fields.
