Precision gear shaving /
Clasificación: | Libro Electrónico |
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Autor principal: | |
Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
[Hauppauge], N.Y. :
Nova Science Publishers,
c2010.
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Colección: | Engineering tools, techniques and tables.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- PRECISION GEAR SHAVING; ENGINEERING TOOLS, TECHNIQUESAND TABLES; CONTENTS; FOREWORD; INTRODUCTION; UNIQUENESS OF THIS PUBLICATION; INTENDED AUDIENCE; THE ORGANIZATION OF THIS BOOK; ELEMENTS OF GEOMETRY OF GEARTOOTH FLANKS; ABSTRACT; 1.1. GENERATION AND THE GEOMETRY OF TOOTH FLANKOF A GEAR TO BE MACHINED; 1.2. TRANSVERSE CROSS-SECTION OF TOOTH FLANK OF AGEAR TO BE MACHINED; 1.3. SPUR AND HELICAL RACKS CONJUGATE TO THEWORK-GEAR TOOTH FLANKS; 1.4. ENGINEERING FORMULAE FOR THE SPECIFICATIONOF GEAR TOOTH; 1.5. WORK-GEAR MATERIAL; BASIC METHODS OF GEAR SHAVING; ABSTRACT.
- 2.1. NATURE OF THE ACTION BETWEEN THE WORK-GEARAND THE SHAVING CUTTER IN GEAR SHAVING PROCESS2.2. CROSSED-AXIS ANGLE; 2.3. METHODS OF SHAVING OF EXTERNAL GEARS; 2.3.1. Axial Method of Gear Shaving Process; 2.3.2. Diagonal Method of Gear Shaving Process; 2.3.3. Underpass (Tangential) Method of Gear Shaving Process; 2.3.4. Plunge Method of Gear Shaving Process; 2.4. POWER SHAVING OF GEARS; 2.5. SHAVING OF INTERNAL GEARS; SHAVING CUTTER DESIGN; ABSTRACT; 3.1. PRINCIPAL DESIGN PARAMETERS OF ASHAVING CUTTER; 3.2. SERRATIONS: DESIGN AND THEIR MACHINING; 3.3. HELIX ANGLE; 3.4. EVEN CONTACTS METHOD.
- 3.5. CONSTRAINTS ONTO IMPLEMENTATIONOF ECM
- SYSTEM3.6. DESIGN PARAMETERS OF A SHAVING CUTTER; 3.6.1. Tooth Number; 3.6.2. Central Bore; 3.6.3. Face Width; Parallelism of Shaving Cutter Faces; Perpendicularity of the Central Bore; 3.6.4. Tooth Root Relief; 3.6.5. Lightening Holes; 3.7. SHAVING CUTTER MATERIAL; GEAR SHAVING PROCESS; ABSTRACT; 4.1. PRE-SHAVING CUTTERS; 4.1.1. Elements of the Tooth Geometry of a Pre-Shaved Work-Gear; 4.1.2. Influence of Protuberance on the Even Contacts Method; 4.1.3. Shape and Dimension of Protuberance and Relieves ofOther Types.
- 4.2. WORKING CONDITIONS IN THE GEARSHAVING PROCESS4.2.1. Shaving Stock Removal; 4.2.2. Stroke Length; 4.2.3. Number of Passes; 4.2.4. Cutting Speed; 4.2.5. Feed Rate; 4.2.6. Lubricating and Cooling; 4.3. SHAVING CUTTER PERFORMANCE; 4.3.1. ConditionsInfluencing the ShavingCutter Performance; 4.3.2. When the Worn Shaving Cutter Should Be Replaced with aNew One?; 4.3.3. How Many Re-Sharpenings a Shaving Cutter is Capableof Undergoing; 4.4. QUALITY OF THE SHAVED GEARS; 4.4.1. Factors and ConditionsThat Affect Gear Shaving Process; 4.4.2. Possibilities of Modification of the Work-Gear Tooth Flank.
- 4.4.3. Achievable Accuracy of the Shaved Gears4.4.4. Profile, Helix and Indexing Errors; 4.4.5. Inspection Graphs for the Work-Gear and for theShaved Gear; 4.4.6. Shaving Process with Synchronized Axes; 4.5. RE-SHARPENING OF A SHAVING CUTTER; 4.6. CORRECTIONS TO TOOTH PROFILE AND TO HELIX; 4.6.1. Definitions to the Main Terminology; 4.6.2. How to Carry Out the Desired Modification of Tooth Profile; Example 4.1.; Example 4.2.; Example 4.3.; 4.6.3. Tooth Profile Correction in Design of Plunge Shaving Cutter; 4.6.4. Tooth Profile in Various Transverse Cross-Sections.