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Metal cutting : research advances / J. Paulo Davim, editor.

Contributor(s): Material type: TextTextSeries: Materials and manufacturing technology seriesPublisher: New York : Nova Science Publishers, Inc., [2010]Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781611225730
  • 1611225736
Subject(s): Genre/Form: Additional physical formats: Print version:: Metal cuttingDDC classification:
  • 671.5/3 22
LOC classification:
  • TJ1185
Online resources:
Contents:
METAL CUTTING: RESEARCH ADVANCES; METAL CUTTING: RESEARCH ADVANCES; CONTENTS ; PREFACE ; METAL CUTTING: SYSTEM OUTLOOK OF RESEARCH AND APPLICATION ASPECTS ; ABSTRACT ; 1. INTRODUCTION ; 2. THE IMPORTANCE OF MACHINING SYSTEM COHERENCE IN RESEARCH AND APPLICATION PRACTICES ; 3. DEALING WITH SYSTEM ISSUES ; 3.1. Chip Compression Ratio ; 3.1.1. Definition; 3.1.2. Significance; 3.2. Péclet number ; 3.2.1. Definition ; 3.2.2. Practical Use in Modeling; 3.2.3. Practical Use in Testing; 3.3 Poletica number ; 3.3.1 Definition ; 3.3.2. Practical Use in Modeling and Testing.
5. A REVIEW OF PREVIOUSLY REPORTED VALUES OF HEAT PARTITION BETWEEN THE TOOL AND THE CHIP 6. EXISTING ANALYTICAL MODELS FOR THE PREDICTION OF HEAT PARTITION ; 6.1. Loewen and Shaw Heat Partition Model ; 6.2. Reznikov Heat Partition Model ; 6.3. Gecim and Winer Heat Partition Model ; 6.4. Shaw Heat Partition Model ; 6.5. Berliner and Krainov Heat Partition Model ; 6.6. Tian and Kennedy Heat Partition Model ; 6.7. Kato and Fujii Heat Partition Model ; 7. SOME COMMENTS ON THE EXISTING HEAT PARTITION MODELS AND THEIR LIMITATIONS ; 8. FINITE ELEMENT MODELLING.
8.1. Thermal Properties of the Workpiece, and Uncoated and Coated Tool Materials 9. EXPERIMENTAL TESTS ; 9.1. Experimental Set-Up ; 9.1.1. Machining Conditions ; 9.1.2. Cutting Tool Materials ; 9.1.3. Workpiece Material ; 9.2. Temperature Measurements ; 10. RESULTS AND DISCUSSIONS ; 10.1. Cutting Forces ; 10.2. Tool-Chip Contact Area ; 10.3. Tool-Chip Contact Phenomena ; 10.3.1. Determination of Sticking and Sliding Zones for Uncoated, and TiN- and TiAlN-Coated Tools ; 10.4. Heat Partition into the Cutting Tool ; 10.4.1. For Uncoated Carbide Cutting Tool ; 10.4.2. For TiN-Coated Tool.
10.4.3. For TiAlN-Coated Tool 11. CONCLUSION ; REFERENCES ; MECHANICAL AND THERMAL EXPERIMENTS IN CUTTING PROCESS FOR NEW BEHAVIOUR LAW ; ABSTRACT; 1. INTRODUCTION ; Evolution and Revolution in the Scientific Approach to the Cutting Process ; 2. MOMENTS AT THE TIP OF THE TOOL ; 2.1. Experimental Devices ; 2.2. Examples of Experimental Mechanical Results ; 2.2.1. Turning Mechanical Results ; 2.2.2. Milling Mechanical Results ; 2.3. Analysis of the Mechanical Experimental Results ; 2.3.1. First Part -- Energy Considerations; 2.3.2. Second Part -- Mechanical Considerations ; 2.4. Conclusion.
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Electronic-Books Electronic-Books OPJGU Sonepat- Campus E-Books EBSCO Available

Includes bibliographical references and index.

Description based on print version record.

English.

METAL CUTTING: RESEARCH ADVANCES; METAL CUTTING: RESEARCH ADVANCES; CONTENTS ; PREFACE ; METAL CUTTING: SYSTEM OUTLOOK OF RESEARCH AND APPLICATION ASPECTS ; ABSTRACT ; 1. INTRODUCTION ; 2. THE IMPORTANCE OF MACHINING SYSTEM COHERENCE IN RESEARCH AND APPLICATION PRACTICES ; 3. DEALING WITH SYSTEM ISSUES ; 3.1. Chip Compression Ratio ; 3.1.1. Definition; 3.1.2. Significance; 3.2. Péclet number ; 3.2.1. Definition ; 3.2.2. Practical Use in Modeling; 3.2.3. Practical Use in Testing; 3.3 Poletica number ; 3.3.1 Definition ; 3.3.2. Practical Use in Modeling and Testing.

5. A REVIEW OF PREVIOUSLY REPORTED VALUES OF HEAT PARTITION BETWEEN THE TOOL AND THE CHIP 6. EXISTING ANALYTICAL MODELS FOR THE PREDICTION OF HEAT PARTITION ; 6.1. Loewen and Shaw Heat Partition Model ; 6.2. Reznikov Heat Partition Model ; 6.3. Gecim and Winer Heat Partition Model ; 6.4. Shaw Heat Partition Model ; 6.5. Berliner and Krainov Heat Partition Model ; 6.6. Tian and Kennedy Heat Partition Model ; 6.7. Kato and Fujii Heat Partition Model ; 7. SOME COMMENTS ON THE EXISTING HEAT PARTITION MODELS AND THEIR LIMITATIONS ; 8. FINITE ELEMENT MODELLING.

8.1. Thermal Properties of the Workpiece, and Uncoated and Coated Tool Materials 9. EXPERIMENTAL TESTS ; 9.1. Experimental Set-Up ; 9.1.1. Machining Conditions ; 9.1.2. Cutting Tool Materials ; 9.1.3. Workpiece Material ; 9.2. Temperature Measurements ; 10. RESULTS AND DISCUSSIONS ; 10.1. Cutting Forces ; 10.2. Tool-Chip Contact Area ; 10.3. Tool-Chip Contact Phenomena ; 10.3.1. Determination of Sticking and Sliding Zones for Uncoated, and TiN- and TiAlN-Coated Tools ; 10.4. Heat Partition into the Cutting Tool ; 10.4.1. For Uncoated Carbide Cutting Tool ; 10.4.2. For TiN-Coated Tool.

10.4.3. For TiAlN-Coated Tool 11. CONCLUSION ; REFERENCES ; MECHANICAL AND THERMAL EXPERIMENTS IN CUTTING PROCESS FOR NEW BEHAVIOUR LAW ; ABSTRACT; 1. INTRODUCTION ; Evolution and Revolution in the Scientific Approach to the Cutting Process ; 2. MOMENTS AT THE TIP OF THE TOOL ; 2.1. Experimental Devices ; 2.2. Examples of Experimental Mechanical Results ; 2.2.1. Turning Mechanical Results ; 2.2.2. Milling Mechanical Results ; 2.3. Analysis of the Mechanical Experimental Results ; 2.3.1. First Part -- Energy Considerations; 2.3.2. Second Part -- Mechanical Considerations ; 2.4. Conclusion.

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