042 - MODERN MACH SHOP
042 - MODERN MACHINE SHOP
1- Introduction to NC
2- Numerical control – what its all about
3- What NC is not
4- Why numerical control
5- How NC came to be
6- How NC operates
7- Part programmer has key role
8- Computers can help
9- Input media
10- What NC does
11- The true natüre of NC
12- Machine tools and their control
13- NC forces new thinking
14- Machining centers
15- Machine axes of motion
16- Standards for designation of axes
17- The machine control unit its evolution
18- Computer numerical control
19- Incremental or absolute
20- Inch or metric
21- Closed or open loop
22- How the MCU controls the machine
23- Feedback devices
24- MCU faeture content
25- NC applications extended
26- Computer Fundamentals
27- Types of computers
28- Mainframe, mini or micro
29- Central processing unit
30- The arithmetic of computers
31- Computer memory
32- Input and output
33- Tape format
34- Binar coded decimal
35-Computer software
36- NC part programming
37- System of cordinates
38- Positioning or contouring, contouring, programming for positioning
39- Programming for contouring
40- Circular interpolation
41- parabolic interpolation
42- Manual or computer programming
43- Other programming techniques
44- Digitizing, scanning, graphics,MDI and shop-floor programming
45- Proving and editing part programs
46- NC software
47- Part programming, processor languages
48- APT the first NC language, processor functions
49- Three approaches, evaluating processor şanguages
50- Workpiece influence on programming
51- Point to point and atraight cuts
52- Nonformula defined curves
53- Repetitive cuts and family of parts
54- Curves and straight lines of a more complexnature
55- Controlled rotary motion
56- Inclined planes and patterns
57- Sculptured surfaces
58- Swarf cuts, formula defined and regular surfaces
59- Multiaxis, incluned five simultaneous motions
60- Lathe language evaluation
61- Post processors
62- NC tool management, tool management program
63- Cutting tool policy, hole making tools, feed-out boring heads
64- Cutting tool length
65- Lathe type tooling, lathe tool length
66- Tool identification, remote tool management, tool length storage
67- Cutter diameter compensation
68- Workholding consideration, modular fixturing, fixture offsets
69- Managing NC the shop
70- Organize for NC, designate NC coordinator
71- Select candidate parts, select NC machine tool
72- Select key personnel, the part programmer
73- The NC machine operatör, maintenance personnel
74- Programming, select NC language, packaged computer assist
75- How to justify NC
76- CAD/CAM/CIM and the automatic factory
77- Computer integrated manufacturing
78- Computerized design and analysis
79- Computer graphics, process planning
80- Material amanagemnt, material requirements planning
81- Inspection and quality control
82- DNC and networking
83- What DNC is and why
84- DNC’ s time has come, DNC computer considerations
84- DNC benefits, network architecture
85- Group technology and manufacturing cells
86- Flexible manufacturing systems
87- Flexible transfer lines
88- FMS system requirements, machine tools
89- materials handling, FMS control center
90- FMS system sonfiguration, planning for FMS
91- The unmanned FMS
92- System elements, automatic workholding
93- Methods of work transport, automatic guided vehicles
94- Automatick work changers, automatic tool handling
95- System robotics
96- Adaptive control
97- Cell and system control
Size - 22.1 Mb
Pages - 124
Language - English
File Type - JPG