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Sheet Metal Forming
This practical and comprehensive reference gives the latest developments on the design of sheet forming operations, equipment, tooling, and process modeling. Individual chapters cover all major sheet forming processes such as blanking, bending, deep drawing, and more. Process modeling using finite element analysis is described in one chapter and discussed in all appropriate chapters. Other chapters cover sensors and die materials, which are critical for practical sheet forming applications. Other topics include relatively new technologies, such as warm forming of magnesium and aluminum alloys, forming of advanced high-strength steels (AHSS), and hot stamping. Chapters also address special sheet forming operations, like spinning, incremental forming, and mechanical joining, and processes related to sheet forming, such as sheet and tube hydroforming, roll forming, and high-velocity forming.
Sheet Metal Fabrication
Sheet metal fabrication--from fins and fenders to art--with all the necessary information on tools, preparations, materials, forms, mock-ups, and much more.
Mechanics of Sheet Metal Forming
The basic theory of sheet metal forming in the automotive, appliance and aircraft industries is given. This fills a gap between the descriptive treatments in most manufacturing texts and the advanced numerical methods used in computer-aided-design systems. The book may be used by lecturers in undergraduate courses in manufacturing; plentiful exercises and worked examples provide quantitative tutorial problems for students. A separate, but related simulation software package advertised on this page enables students to explore the limits of processes and understand the influence of different process and material variables. Engineers in stamping plants and press shops find the book useful in un...
Aircraft Sheet Metal
All you need to know about aircraft structures and materials, tools and fasteners, layout, setback, bends and repairs, and practical applications of dies, jigs and fixtures. Great for special classes and homebuilders. Fully illustrated with glossary, index and study questions. Written by Nick Bonacci. ISBN# 0-89100-296-0. 140 pages.
Automotive Sheet Metal Forming & Fabrication
This book contains useful instruction and information for metal workers, from novice to intermediate and even advanced, on how to apply force and use good judgment, thorough planning, close observation, creativity, and restraint to create almost any metal part. With this book, simple to complex fabrication and metal forming tasks are within the reach of adept enthusiasts.
Sheet Metal Mathematics and Geometry Development
This book draws upon the author's skills and qualifications in Sheet Metal Trades, his Certificate of Applied Science in CAD, and Diploma of Engineering in Drafting. Despite having no qualification in mathematics he has developed as a self taught student in this field, and that of pure mathematics. The bases of pure mathematics are to prove and explain why the maths works and this also is true for geometry, which is another expression of mathematics. The two are linked together and help to prove each other. This book allows the reader and practical sheet metal tradesperson to take the tried and tested old means of a handmade approach.
Sheet Metal Handbook
Imagine transforming a flat sheet of aluminum alloy into an attractive hood scoop. Or designing and making your own aluminum wheel tubs, floorpan and dashboard for your street machine. How about learning to design and build your own body panels, manifolds, brackets and fuel tanks? These are just a few of the many tips and techniques shared by master metal craftsman Ron Fournier. Author of HP's award-winning Metal Fabricator's Handbook, Fournier packs decades of experience designing and shaping sheet metal components for Indy cars, drag race cars, road racers, street rods and street machines into 144 pages. You'll find tips on: · Setting up your own shop · Selecting and using basic hand too...
Sheet Metal Forming Processes
The concept of virtual manufacturing has been developed in order to increase the industrial performances, being one of the most ef cient ways of reducing the m- ufacturing times and improving the quality of the products. Numerical simulation of metal forming processes, as a component of the virtual manufacturing process, has a very important contribution to the reduction of the lead time. The nite element method is currently the most widely used numerical procedure for s- ulating sheet metal forming processes. The accuracy of the simulation programs used in industry is in uenced by the constitutive models and the forming limit curves models incorporated in their structure. From the above dis...
