Production engineering : jig and tool design /

Production Engineering: Jig and Tool Design focuses on jig and tool design as part of production engineering and covers topics ranging from inspection and gauging to multiple and consecutive tooling, tool calculation and development of form tools, deep-hole boring, and grinding-wheel form-crushing....

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Jones, E. J. H. (Ernest James Henry)
Otros Autores: Town, H. C. (Harold Clifford)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Newnes-Butterworths, 1972.
Edición:8th ed. ;
Temas:
Jigs and fixtures > Design and construction.
Machine-tools > Design.
Production engineering.
Technique de la production.
TECHNOLOGY & ENGINEERING > Mechanical.
Jigs and fixtures > Design and construction
Machine-tools > Design
Production engineering
Machine tools
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Production Engineering: Jig and Tool Design; Copyright Page; Foreword; Preface; Table of Contents; Chapter 1. Function and Organisation of the Jig and Tool Department; Surface technology; Numerical assessment; Operation layout; The economics of tooling; Automatic lathes; Tracer controlled copy turning; Angular tool presentation; Examples of copy turning; Economy of copy turning; Proposed equipment formulae; Proposed formulae; Chapter 2. Inspection and Gauging; Factory inspection department; Line inspection; Accuracy of tools; Limits and fits; Fit diagrams; Design of limit gauges
  • Wear allowancesTaylor's principle; Principles of precision measurement; Principle of minimum constraint; Slip gauges; Dial indicators; The optical lever; Pneumatic comparators; Electrical comparators; Measuring machines; Angular measurements; The sine bar; Rollers and slip blocks; Chapter 3. Cutting-Tool Materials; High-speed steel; Tungsten carbide; Tantalum tungsten carbide; Molybdenum-titanium carbon alloy; Cobalt-chromium-tungsten alloy (stellite); Hardness; The cutting tips; Special features; Speeds and feeds; Tool grinding; Introduction; Types of diamonds; Diamond turning tools
  • Turning tool holdersChapter 4. Small Tools; Web thickness, fluting, etc.; Rifle drills; 'D' bits; Core drills; Spade drills; Core drills for finishing bores; Stepped reamer for fine finish; Adjustable reamer; Tapping chucks; Thread milling; Thread grinding; Rolling of screw threads; Chapter 5. Milling Cutters; Rake; Side or straddle mill; Interlocking cutters; End mills; Shell-end mills; Form-relieved cutters; Face milling cutters; High-rake milling cutters; Cutters for down-cut milling; Vibration problems; Pendulum milling; Cutter design for pendulum milling; Time cycle
  • Chapter 6. Milling FixturesService operation milling fixture; Deep-slot milling fixture; Fork-end milling fixture; Slot-milling fixture with toggle clamping; Edge-clamping milling fixture; Sighting plate, first-operation milling fixture; Standard string-milling fixture; String fixture for horizontal machine; Continuous rotary milling fixture; Fluid-compensated clamping fixture; Simple hydrostatics; Gang-milling fixtures; Fixture for gang-milling slots; Indexing fixtures; Preventing errors when indexing; Splitting bushes in half; Chapter 7. Multiple and Consecutive Tooling
  • Multiple drilling machineConsecutive tooling; Depth of counterbores; Planing tools; Rotary tools; Cutter bar holder; Single tooling and consecutive operation; Chapter 8. Tool Calculation and Development of Form Tools; Dimensioning a tool drawing; Spline cutter; The development of form tools; Circular-form tool; Dovetail-form tool; Hardening of form tools; Circular-form tool calculations; Circular tools without top rake; Circular tools with top rake; The production of form relief; Theory of form relief; The logarithmic spiral; Spirally gashed hob

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