Metal Machining: Theory and ApplicationsWiley, 2000 - Всего страниц: 408 Metal machining is one of the most widespread and economically important engineering industry manufacturing processes. Although it is an old and established process, changes and improvements occur constantly in response to new materials and new needs for, and pressures on, productivity. This book explains the mechanical, thermal and materials principles of the process and shows how these principles determine industrial application conditions. Its coverage ranges from classical analysis and methods of production optimization to the uses of finite element and artificial intelligence methods for predicting machining performance. |
Содержание
Manufacturing systems | 15 |
Economic optimization of machining | 24 |
A forward look | 32 |
Авторские права | |
Не показаны другие разделы: 13
Другие издания - Просмотреть все
Metal Machining: Theory and Applications Thomas H. C. Childs,Katsuhiro Maekawa,Toshiyuki Obikawa Ограниченный просмотр - 2000 |
Metal Machining: Theory and Applications K. Maekawa,T. Obikawa,Y. Yamane,T.H.C. Childs Ограниченный просмотр - 2013 |
Metal Machining: Theory and Applications Thomas Childs,Thomas H. C. Childs,Katsuhiro Maekawa,Toshiyuki Obikawa Просмотр фрагмента - 2000 |
Часто встречающиеся слова и выражения
alumina aluminium ASME asperity carbide tool carbon steel cemented carbide cermets Chapter chip and tool chip flow chip formation chip/tool coated coefficients components constant contact length contact stress cost cutting conditions cutting fluid cutting force cutting speed cutting tool deformation depends depth of cut developed deviatoric drilling elastic end mill equation example feed finite element finite element method flank wear flow stress fracture friction stress fuzzy geometry hardening heat high speed steel increases insert Kwork load lubrication m/min machine tool manufacturing maximum measured mechanical metal cutting milling machines monitoring Obikawa operation predicted rake angle rake face range region Section shear plane angle shear stress Shirakashi shown in Figure shows simulation slip-line field strain rate Table thermal tion tool materials tool wear turning Uchip uncut chip thickness Usui Uwork values variations velocity workpiece Young's modulus
Ссылки на эту книгу
Ultrasonic Processes and Machines: Dynamics, Control and Applications V.K. Astashev,V. I. Babitsky Ограниченный просмотр - 2007 |