Fundamentals of Modern Manufacturing: Materials, Processes, and SystemsTable of Contents 1 Introduction 1 Pt. I Material Properties and Product Attributes 2 The Nature of Materials 24 3 Mechanical Properties of Materials 39 4 Physical Properties of Materials 66 5 Dimensions, Tolerances, and Surfaces 77 Pt. II Engineering Materials 6 Metals 88 7 Ceramics 125 8 Polymers 143 9 Composite Materials 175 Pt. III Solidification Processes 10 Fundamentals of Metal Casting 193 11 Metal Casting Processes 213 12 Glassworking 246 13 Shaping Processes for Plastics 256 14 Rubber Processing Technology 306 15 Shaping Processes for Polymer Matrix Composites 317 Pt. IV Particulate Processing of Metals and Ceramics 16 Powder Metallurgy 334 17 Processing of Ceramics and Cermets 358 Pt. V Metal Forming and Sheet Metalworking 18 Fundamentals of Metal Forming 374 19 Bulk Deformation Processes in Metal Working 386 20 Sheet Metal Working 435 Pt. VI Material Removal Processes 21 Theory of Metal Machining 475 22 Machining Operations and Machine Tools 499 23 Cutting Tool Technology 534 24 Economic and Product Design Considerations in Machining 565 25 Grinding and Other Abrasive Processes 585 26 Nontraditional Machining and Thermal Cutting Processes 610 Pt. VII Property Enhancing and Surface Processing Operations 27 Heat Treatment of Metals 639 28 Cleaning and Surface Treatments 651 29 Coating and Deposition Processes 659 Pt. VIII Joining and Assembly Processes 30 Fundamentals of Welding 679 31 Welding Processes 694 32 Brazing, Soldering, and Adhesive Bonding 734 33 Mechanical Assembly 752 Pt. IX Special Processing and Assembly Technologies 34 Rapid Prototyping 772 35 Processing of Integrated Circuits 786 36 Electronics Assembly and Packaging 819 37 Microfabrication Technologies 845 Pt. X Manufacturing Systems 38 Numerical Control and Industrial Robotics 860 39 Group Technology and Flexible Manufacturing Systems 884 40 Production Lines 896 Pt. XI Manufacturing Support Systems 41 Manufacturing Engineering 912 42 Production Planning and Control 928 43 Quality Control 947 44 Measurement and Inspection 965 Index 989. |
From inside the book
Results 1-3 of 73
Page 64
... determine the strength coefficient and the strain hardening exponent . Be sure not to use data after the point at ... Determine the flow curve pa- rameters n and K. 3.8 . During a tensile test , a metal has a true strain = 0.10 at a true ...
... determine the strength coefficient and the strain hardening exponent . Be sure not to use data after the point at ... Determine the flow curve pa- rameters n and K. 3.8 . During a tensile test , a metal has a true strain = 0.10 at a true ...
Page 433
... Determine the maximum reduction in height to which the part can be compressed with this forging press , if the coefficient of friction = 0.1 . 19.21 . A part is designed to be hot forged in an impression die . The projected area of the ...
... Determine the maximum reduction in height to which the part can be compressed with this forging press , if the coefficient of friction = 0.1 . 19.21 . A part is designed to be hot forged in an impression die . The projected area of the ...
Page 472
... Determine the appropriate punch and die sizes for this operation . 20.3 . A compound die will be used to blank and punch a large washer out of aluminum alloy sheet stock 3.2 mm thick . The outside diameter of the washer = 65 mm and the ...
... Determine the appropriate punch and die sizes for this operation . 20.3 . A compound die will be used to blank and punch a large washer out of aluminum alloy sheet stock 3.2 mm thick . The outside diameter of the washer = 65 mm and the ...
Contents
INTRODUCTION | 2 |
Material Properties and Product Attributes | 24 |
MECHANICAL PROPERTIES | 39 |
Copyright | |
41 other sections not shown
Other editions - View all
Fundamentals of Modern Manufacturing: Materials, Processes, and Systems Mikell P. Groover No preview available - 2001 |
Fundamentals of Modern Manufacturing: Materials, Processes, and Systems Mikell P. Groover No preview available - 2003 |
Common terms and phrases
abrasive adhesive alloys aluminum angle applications assembly atoms blow molding bonding brazing carbon cast iron cemented carbide ceramics cermets chemical chip circuit coating components composite composite material copper cutting fluid cutting speed cutting tool deformation Determine diameter drill elastomers electrical electronic engineering etching extrusion fabrication feed fibers flow fluid force forging friction geometry glass hardening heat hole illustrated in Figure injection molding integrated circuits joint layer lb/in.² liquid manufacturing material mechanical melting methods milling milling cutter mold cavity mold processes molten metal operation oxide particles performed plastic plate polymer powders pressure printed circuit board production properties reduce removal resistance rolling rotating rubber sand casting Section shape shear shown in Figure silicon sintering soldering solid solidification steel strain stress structure substrate surface finish Table temperature tensile strength thermal thermoplastic thermosetting thickness tion types typical wire workpart