- Breaks down the treatment of each process into three categories: Knowledge, Application, and Development and organizes each process family based on common characteristics.
- Comprehensively illustrates, defines, and explains each process to provide the reader with an unequaled understanding of the process and its applications.
- Encourages an appreciation of the integration of design and manufacturing engineering activities that results in more practical, less expensive, and better designed products for the consumer.
This item replaces 978-0-8311-3049-7. It is now a paperback/print-on-demand edition.
Written by a team of educators with unmatched experience, in collaboration with a consortium of industrial representatives from Black and Decker, Boeing, Caterpillar, General Motors, Grumman, Tektronix, Texas Instruments, Westinghouse, and Xerox, Manufacturing Processes Reference Guide provides thorough descriptions of over 125 of the most important processes available to industry today. This important resource encompasses the entire spectrum of manufacturing, from "Abrasive Jet Machining" to "Wire Drawing." Used with Fundamental Principles of Manufacturing Processes, the two books provide all the information needed to identify the ideal process for a specific manufacturing requirement.
"Todd, Allen, and Alting's book is intended to help integrate design and manufacturing engineering activities by providing students of engineering and designers in industry with easily accessible information about common manufacturing processes. The authors rightfully believe that the first step in designing a component is for the designer to become familiar with the processes that will be used in its manufacture. This always leads to more practical, less expensive, and better designed products. [Recommended for] upper-division undergraduate through professional."
SCIENCE AND TECHNOLOGY Magazine.
TAXONOMY OF MANUFACTURING PROCESSES
MANUFACTURING PROCESSES
MECHANICAL REDUCTION
Abrasive Jet Machining Arbor Milling Band Filing Band Sawing Broaching Centerless Grinding Circular Sawing Conventional Blanking Cylindrical Grinding Die Threading Drilling End Milling Fine Blanking Gear Hobbing Gear Milling Gear Shaping Honing Horizontal Boring Internal Grinding Jig Boring Lancing Lapping Lathe Boring Nibbling Notching Parting/Grooving Perforating Precision Boring Punching Reaming Reciprocating Filing Reciprocating Sawing Routing Sand Blasting Shaping/Planing Shearing Slitting Steel-Rule-Die Blanking Superfinishing Surface Grinding Tapping Thread Cutting Thread Milling Turning/Facing Vertical Boring Vibratory Finishing
THERMAL REDUCING
Cavity Type Electrical Discharge Machining (EDM) EDM Grinding Electrical Discharge Machining Wire Cutting (Wire EDM) Gas/Flame Cutting Plasma Arc Cutting
CHEMICAL REDUCING
ECM Grinding (ECG) Electrochemical Machining (Cavity Type ECM) Immersion Chemical Milling/Blanking Photo Etching
CONSOLIDATION
Axial Powder Compaction Blow Molding Cold Chamber Die Casting Compression Molding Cored Sand Casting Extrusion Molding Filament Winding Green Sand Casting Injection Molding Investment Casting Isostatic Powder Compaction No-Bake Sand Casting Permanent Mold Casting Plaster Mold Casting Rotational Molding Shell Mold Casting Thermoform Molding Transfer Molding
DEFORMATION
Brake Forming Cold Heading Deep Drawing Drop Forging Impact Extrusion Plate Roll Bending Progressive Die Drawing Progressive Roll Forming Stretch Draw Forming Swaging Thread Rolling Tube Bending Tube Drawing Upset Forging Wire Drawing
THERMAL JOINING
Electron Beam Welding Furnace Brazing Gas Metal Arc Welding (MIG) Gas Torch Braze Welding Gas Tungsten Arc Welding (TIG) Laser Beam Welding Metal Bath
Robert (Bob) H. Todd (born 1942) is an American engineer and Emeritus Professor of Mechanical Engineering at Brigham Young University (BYU) and a fellow of the American Society for Engineering Education.
Todd received a bachelor's degree from California State University, Northridge and an MS from Stanford University, and holds a Ph.D. from Stanford University. In 1971, he was serving as a counselor to Bishop Henry B. Eyring in the Stanford Ward of The Church of Jesus Christ of Latter-day Saints when Bishop Eyring was called to be the new president of Ricks College. Todd accepted an invitation to become the first professor of mechanical engineering at Ricks to have a Ph.D. He then joined the faculty of Brigham Young University in 1989, where he was appointed Professor of Mechanical Engineering. He developed BYU's mechanical engineering capstone program which was begun in 1990. Among other assignments at BYU, Todd has served as the coach of the Formula SAE racing team. Todd retired at the BYU in 2013.
Todd wrote the Manufacturing Processes Reference Guide (1991) along with Dell K. Allen and Leo Alting, and has written papers on the capstone project primarily with Spencer P. Magleby and Carl D. Sorenson.
