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Mathematical control systems --- Machine-tools --- Numerical control --- -Automatic machine-tools --- Machine-tools, Automatic --- Transfer machines --- Metal-working machinery --- Tools --- Machining --- Manufacturing processes --- Numerical control. --- -Numerical control --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Automation --- Machine-tools - Numerical control
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Machine-tools --- Machines-outils --- Numerical control --- Commande numérique --- -Automatic machine-tools --- Machine-tools, Automatic --- Transfer machines --- Metal-working machinery --- Tools --- Machining --- Manufacturing processes --- -Numerical control --- Commande numérique --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Automation --- Numerical control. --- Machine-tools - Numerical control
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Machine-tools --- -regeltechniek --- werktuigmachine --- Automatic machine-tools --- Machine-tools, Automatic --- Transfer machines --- Metal-working machinery --- Tools --- Machining --- Manufacturing processes --- Numerical control --- regeltechniek --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Automation --- Numerical control.
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Advanced manufacturing systems are vital to the manufacturing industry. It is well known that if a target work piece has a curved surface, then automation of the polishing process is difficult. Controller design for industrial robots and machine tools presents results where industrial robots have been successfully applied to such surfaces, presenting up to date information on these advanced manufacturing systems, including key technologies. Chapters cover topics such as velocity-based discrete-time control system for industrial robots; preliminary simulation of intelligent force control; CAM s
Engineering sciences. Technology --- Machine-tools --- Robots, Industrial. --- Numerical control. --- Industrial robots --- Automatic machinery --- Robots --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Automation
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This book treats the scientific principles of metal cutting and their practical application to producing manufactured products. It begins with the fundamentals of metal cutting mechanics and features in-depth coverage of chatter vibrations, a common problem in manufacturing. The essential topics of programming, design, and automation of CNC (computer numerical control) machine tools; NC (numerical control) programming; and CAD/CAM technology are fully discussed. Each chapter includes examples drawn from industry, design projects, and homework problems. Advanced undergraduate and graduate students, as well as practising engineers, will find this book a clear and thorough way to learn the engineering principles of metal cutting mechanics, CNC system design, and CAD/CAM technology.
Materials processing --- Computer. Automation --- machineonderdelen --- CAD (computer aided design) --- computer-aided design --- CNC machines --- #KVIV:BB --- 681.3*I29 --- Robotics: manipulators; propelling mechanisms; sensors (Artificial intelli- gence) --- 681.3*I29 Robotics: manipulators; propelling mechanisms; sensors (Artificial intelli- gence) --- Machine-tools --- Machining --- Materials --- Machine-shop practice --- Manufacturing processes --- Cutting --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Numerical control --- Vibration --- Automation --- computer-aided design [process]
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Machine-tools --- -681.3*J6 --- Automatic machine-tools --- Machine-tools, Automatic --- Transfer machines --- Metal-working machinery --- Tools --- Machining --- Manufacturing processes --- Numerical control --- Computer-aided engineering: computer-aided design; CAD; computer-aided manufacturing; CAM --- 681.3*J6 Computer-aided engineering: computer-aided design; CAD; computer-aided manufacturing; CAM --- 681.3*J6 --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Automation
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Computer Numerical Control (CNC) controllers, working as a brain for manufacturing automation, are high value-added products counting for over 30% of the price of machine tools. CNC technology is generally considered as a measure for the level of manufacturing technology of a nation. Often referred to as "The Flower of Industrial Technology", the development of CNC technology depends upon the integration of technologies from computer, hardware, machining, and other industries, and requires strategic long-term support, mostly on a governmental level. Theory and Design of CNC Systems covers the elements of control, the design of control systems, and modern open-architecture control systems. Topics covered include Numerical Control Kernel (NCK) design of CNC, Programmable Logic Control (PLC), and the Man-Machine Interface (MMI), as well as the major modules for the development of conversational programming methods. The concepts and primary elements of STEP-NC are also introduced. A collaboration of several authors with considerable experience in CNC development, education, and research, Theory and Design of CNC Systems is a highly focused textbook on the principles and development technologies of CNC controllers, which can also be used as a guide for those working on CNC development in industry.
Machine-tools --- Numerical control --- Programming. --- Numerical control. --- NC-programming --- Numerical control programming --- Programming of numerically controlled machine tools --- Computer programming --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Automation --- Mechanical engineering. --- Manufactures. --- Engineering. --- Mechanical Engineering. --- Manufacturing, Machines, Tools, Processes. --- Machinery and Machine Elements. --- Control, Robotics, Mechatronics. --- Construction --- Industrial arts --- Technology --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Engineering, Mechanical --- Engineering --- Machinery --- Steam engineering --- Machinery. --- Control engineering. --- Robotics. --- Mechatronics. --- Control engineering --- Control equipment --- Control theory --- Engineering instruments --- Programmable controllers --- Machines --- Manufactures --- Power (Mechanics) --- Mechanical engineering --- Motors --- Power transmission --- Microelectronics --- Microelectromechanical systems --- Machine theory --- Curious devices
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Do you like to build things? Are you ever frustrated at having to compromise your designs to fit whatever parts happen to be available? Would you like to fabricate your own parts? Build Your Own CNC Machine is the book to get you started. CNC expert Patrick Hood-Daniel and best-selling author James Kelly team up to show you how to construct your very own CNC machine. Then they go on to show you how to use it, how to document your designs in computer-aided design (CAD) programs, and how to output your designs as specifications and tool paths that feed into the CNC machine, controlling it as it builds whatever parts your imagination can dream up. Don't be intimidated by abbreviations like CNC and terms like computer-aided design. Patrick and James have chosen a CNC-machine design that is simple to fabricate. You need only basic woodworking skills and a budget of perhaps $500 to $1,000 to spend on the wood, a router, and various other parts that you'll need. With some patience and some follow-through, you'll soon be up and running with a really fun machine that'll unleash your creativity and turn your imagination into physical reality. The authors go on to show you how to test your machine, including configuring the software. Provides links for learning how to design and mill whatever you can dream up The perfect parent/child project that is also suitable for scouting groups, clubs, school shop classes, and other organizations that benefit from projects that foster skills development and teamwork No unusual tools needed beyond a circular saw and what you likely already have in your home toolbox Teaches you to design and mill your very own wooden and aluminum parts, toys, gadgets—whatever you can dream up.
Machine-tools --Numerical control. --- Machine-tools --- Computer Science --- Mechanical Engineering - General --- Engineering & Applied Sciences --- Mechanical Engineering --- Numerical control --- Information Technology --- Computer Science (Hardware & Networks) --- General and Others --- Machine shops --- Numerical control. --- Automation. --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Computer science. --- Computer-aided engineering. --- Computer Science. --- Computer-Aided Engineering (CAD, CAE) and Design. --- CAE --- Engineering --- Informatics --- Science --- Data processing --- Automatic control --- Electronic control --- Automation --- Computer input-output equipment. --- Computer aided design. --- Hardware and Maker. --- CAD (Computer-aided design) --- Computer-assisted design --- Computer-aided engineering --- Design --- Computer hardware --- Computer I/O equipment --- Computers --- Electronic analog computers --- Electronic digital computers --- Hardware, Computer --- I/O equipment (Computers) --- Input equipment (Computers) --- Input-output equipment (Computers) --- Output equipment (Computers) --- Computer systems --- Input-output equipment
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Machine-tools --- -681.3*J6 --- 681.3*J6 Computer-aided engineering: computer-aided design CAD computer-aided manufacturing CAM --- Computer-aided engineering: computer-aided design CAD computer-aided manufacturing CAM --- Automatic machine-tools --- Machine-tools, Automatic --- Transfer machines --- Metal-working machinery --- Tools --- Machining --- Manufacturing processes --- Numerical control --- Production engineering --- Robots, Industrial --- 681.3*J6 --- 681.3*J6 Computer-aided engineering: computer-aided design; CAD; computer-aided manufacturing; CAM --- Computer-aided engineering: computer-aided design; CAD; computer-aided manufacturing; CAM --- Industrial robots --- Automatic machinery --- Robots --- Computer numerical control of machine-tools --- Numeric control of machine-tools --- Numerical control of machine-tools --- Tape-controlled machine-tools --- Automatic control --- Electronic control --- Machine shops --- Data processing --- Automation --- 681.5 --- 681.5 Automatic control engineering. Control systems, techniques, equipment. Cybernetic and automation technology --- Automatic control engineering. Control systems, techniques, equipment. Cybernetic and automation technology --- Production management --- Machine elements --- machineonderdelen --- robots --- NC (numerieke controle) --- dataprocessing --- Artificial intelligence. Robotics. Simulation. Graphics --- productiebesturing --- machines --- Robots, Industrial. --- Numerical control. --- Data processing. --- Commande numérique --- Machines-outils --- Commande numérique --- Controle de fabrication
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