Metal Cutting
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portes grátis
Metal Cutting
Theory, Selection, and Design
Dearnley, Peter A.; Trent, Edward M.; Wright, Paul K.
Elsevier - Health Sciences Division
05/2025
400
Mole
9780323991551
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
PART I - THE BASICS
1. Introduction
2. Metal cutting operations and terminology
3. Essential features of metal cutting
4. Forces and stresses in metal cutting
5. Heat in metal cutting
PART II- THE TOOL MATERIALS
6. High speed steel tools
7. Uncoated cemented carbides cutting tools
8. Coated cutting tools
9. Alumina (Al2O3) based ceramics and sialons
10. Ultrahard tool materials
PART III- APPLYING THE TOOLS
11. Machinability of steels and cast-irons
12. Machinability of other metals
13. Coolants and lubricants
14. High speed machining
PART IV- STUDENT TASKS & BIBLIOGRAPHY
15. Student exercises
16. Web links
1. Introduction
2. Metal cutting operations and terminology
3. Essential features of metal cutting
4. Forces and stresses in metal cutting
5. Heat in metal cutting
PART II- THE TOOL MATERIALS
6. High speed steel tools
7. Uncoated cemented carbides cutting tools
8. Coated cutting tools
9. Alumina (Al2O3) based ceramics and sialons
10. Ultrahard tool materials
PART III- APPLYING THE TOOLS
11. Machinability of steels and cast-irons
12. Machinability of other metals
13. Coolants and lubricants
14. High speed machining
PART IV- STUDENT TASKS & BIBLIOGRAPHY
15. Student exercises
16. Web links
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
60/40 Leaded brass; Abrasion; Adiabatic shear; Al2O3-SiCw; Alumina ceramic; Alumina-SiCw; Aluminum alloys; Attrition; Attrition wear; Boring; Broaching; Built-up edge; Built-up-edge; Calcium treated steels; Carbon tetrachloride; Catastrophic shear; CBN; CBN composites; CCl4; Cemented carbide; Cemented carbides; CGI; Chilled cast iron; Chip formation; Chip shape; Chip types; Chip/tool interface; Coated and uncoated tools; Coated carbides; Coated tool wear; Coated-sialon; Compacted graphite cast iron; Compressive force; Coolant; Copper-based alloys; CVD; CVD and PVD coating technology; CVD coating; CVD diamond coatings; Diamond coated carbides; Diamond-like carbon (DLC) coatings; Diffusion wear; Discrete plastic deformation; Dissolution/diffusion wear; DLC; DLC coated carbides; Drilling; Economics importance; EMF method; Emulsion; Facing; Feed force; Flow zone; Forming; Free machining steels; Fretting; Geometry; Gray cast iron; Hard steels; Hardness; Heat affected zone; Heat in metal cutting; Heat treatment; High=speed steel; High-conductivity copper; High-speed machining; High-speed steel; HIPIMS; Incoloy 718; Inconel 901; Intermittent chip/tool contact; Iron bonded carbides; Lubricant; Lubrication; Machinability; Machining chart; Machining economics; Machining impact; Magnesium; Martensite transformation; Mechanics of machining; Metal cutting; Micro-abrasion; Microstructure; Milling; Mineral oil; Minimum quantity lubrication; Mist coolant; Mixed crystal; MQL; Nickel alloys; Notch wear; Oxidation; Oxide inclusions; Parting-off; PCD; Photo-elastic analysis; Photo-elastic tool; Planing; Polycrystalline diamond composites; PVD; PVD coating; Quick-stop; Quick-stops; Radiation method; Rake-angle; Residual stress; Sapphire tool; Secondary hardening; Segmented chip; Seizure; Shaping; Shear localized chip; Shear stress; Sialon; Sialons; Sintering; Solution; Spheroidal graphitic cast iron; Split tool; Stainless steels; Strength; Stress distribution; Sulfurized copper; Thermal cracks; Thermocouple methods; Thrust force; Ti(Al,N); Ti(C,N); TiN; Tool design; Tool forces; Tool temperatures; Tool wear at high speed; Tool/work thermocouple; Tool-chip interface; Turning; Ultrahard tools; WC-Co; WC-?C-Co; Wear mechanisms; ZTA
PART I - THE BASICS
1. Introduction
2. Metal cutting operations and terminology
3. Essential features of metal cutting
4. Forces and stresses in metal cutting
5. Heat in metal cutting
PART II- THE TOOL MATERIALS
6. High speed steel tools
7. Uncoated cemented carbides cutting tools
8. Coated cutting tools
9. Alumina (Al2O3) based ceramics and sialons
10. Ultrahard tool materials
PART III- APPLYING THE TOOLS
11. Machinability of steels and cast-irons
12. Machinability of other metals
13. Coolants and lubricants
14. High speed machining
PART IV- STUDENT TASKS & BIBLIOGRAPHY
15. Student exercises
16. Web links
1. Introduction
2. Metal cutting operations and terminology
3. Essential features of metal cutting
4. Forces and stresses in metal cutting
5. Heat in metal cutting
PART II- THE TOOL MATERIALS
6. High speed steel tools
7. Uncoated cemented carbides cutting tools
8. Coated cutting tools
9. Alumina (Al2O3) based ceramics and sialons
10. Ultrahard tool materials
PART III- APPLYING THE TOOLS
11. Machinability of steels and cast-irons
12. Machinability of other metals
13. Coolants and lubricants
14. High speed machining
PART IV- STUDENT TASKS & BIBLIOGRAPHY
15. Student exercises
16. Web links
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
60/40 Leaded brass; Abrasion; Adiabatic shear; Al2O3-SiCw; Alumina ceramic; Alumina-SiCw; Aluminum alloys; Attrition; Attrition wear; Boring; Broaching; Built-up edge; Built-up-edge; Calcium treated steels; Carbon tetrachloride; Catastrophic shear; CBN; CBN composites; CCl4; Cemented carbide; Cemented carbides; CGI; Chilled cast iron; Chip formation; Chip shape; Chip types; Chip/tool interface; Coated and uncoated tools; Coated carbides; Coated tool wear; Coated-sialon; Compacted graphite cast iron; Compressive force; Coolant; Copper-based alloys; CVD; CVD and PVD coating technology; CVD coating; CVD diamond coatings; Diamond coated carbides; Diamond-like carbon (DLC) coatings; Diffusion wear; Discrete plastic deformation; Dissolution/diffusion wear; DLC; DLC coated carbides; Drilling; Economics importance; EMF method; Emulsion; Facing; Feed force; Flow zone; Forming; Free machining steels; Fretting; Geometry; Gray cast iron; Hard steels; Hardness; Heat affected zone; Heat in metal cutting; Heat treatment; High=speed steel; High-conductivity copper; High-speed machining; High-speed steel; HIPIMS; Incoloy 718; Inconel 901; Intermittent chip/tool contact; Iron bonded carbides; Lubricant; Lubrication; Machinability; Machining chart; Machining economics; Machining impact; Magnesium; Martensite transformation; Mechanics of machining; Metal cutting; Micro-abrasion; Microstructure; Milling; Mineral oil; Minimum quantity lubrication; Mist coolant; Mixed crystal; MQL; Nickel alloys; Notch wear; Oxidation; Oxide inclusions; Parting-off; PCD; Photo-elastic analysis; Photo-elastic tool; Planing; Polycrystalline diamond composites; PVD; PVD coating; Quick-stop; Quick-stops; Radiation method; Rake-angle; Residual stress; Sapphire tool; Secondary hardening; Segmented chip; Seizure; Shaping; Shear localized chip; Shear stress; Sialon; Sialons; Sintering; Solution; Spheroidal graphitic cast iron; Split tool; Stainless steels; Strength; Stress distribution; Sulfurized copper; Thermal cracks; Thermocouple methods; Thrust force; Ti(Al,N); Ti(C,N); TiN; Tool design; Tool forces; Tool temperatures; Tool wear at high speed; Tool/work thermocouple; Tool-chip interface; Turning; Ultrahard tools; WC-Co; WC-?C-Co; Wear mechanisms; ZTA
