3. Machining with High-Pressure Cooling

Witold F. Habrat; Piotr Laskowski; Angelos P. Markopoulos

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3. Machining with High-Pressure Cooling

Witold F. Habrat , Piotr Laskowski und Angelos P. Markopoulos

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Ein Kapitel aus dem Buch Metal Cutting Technologies

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APA
Harvard
Chicago
Vancouver

Habrat, Witold F., Laskowski, Piotr and Markopoulos, Angelos P.. "3. Machining with High-Pressure Cooling". Metal Cutting Technologies: Progress and Current Trends, edited by J. Paulo Davim, Berlin, Boston: De Gruyter Oldenbourg, 2016, pp. 60-75. https://doi.org/10.1515/9783110451740-006

Habrat, W., Laskowski, P. & Markopoulos, A. (2016). 3. Machining with High-Pressure Cooling. In J. Davim (Ed.), Metal Cutting Technologies: Progress and Current Trends (pp. 60-75). Berlin, Boston: De Gruyter Oldenbourg. https://doi.org/10.1515/9783110451740-006

Habrat, W., Laskowski, P. and Markopoulos, A. 2016. 3. Machining with High-Pressure Cooling. In: Davim, J. ed. Metal Cutting Technologies: Progress and Current Trends. Berlin, Boston: De Gruyter Oldenbourg, pp. 60-75. https://doi.org/10.1515/9783110451740-006

Habrat, Witold F., Laskowski, Piotr and Markopoulos, Angelos P.. "3. Machining with High-Pressure Cooling" In Metal Cutting Technologies: Progress and Current Trends edited by J. Paulo Davim, 60-75. Berlin, Boston: De Gruyter Oldenbourg, 2016. https://doi.org/10.1515/9783110451740-006

Habrat W, Laskowski P, Markopoulos A. 3. Machining with High-Pressure Cooling. In: Davim J (ed.) Metal Cutting Technologies: Progress and Current Trends. Berlin, Boston: De Gruyter Oldenbourg; 2016. p.60-75. https://doi.org/10.1515/9783110451740-006

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Frontmatter I
Preface V
About the editor VI
Contents VII
List of contributing authors XI
1. The Principle of Minimum Strain Energy to Fracture of the Work Material and Its Application in Modern Cutting Technologies 1
2. Energy Consumption Optimization in Machining Processes 36
3. Machining with High-Pressure Cooling 60
4. Effect of Machining on the Fatigue Life of Steels 76
5. FEM Analysis and ANN Modeling for Optimizing Machinability Indicators during Dry Longitudinal Turning of Ti–6Al–4V ELI Alloy 95
6. Double-Tool Turning 119
7. Effect of Electrical Resistivity on the Electrical Discharge Machining Process 143
Index 171

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https://doi.org/10.1515/9783110451740-006

Kapitel in diesem Buch

Frontmatter I
Preface V
About the editor VI
Contents VII
List of contributing authors XI
1. The Principle of Minimum Strain Energy to Fracture of the Work Material and Its Application in Modern Cutting Technologies 1
2. Energy Consumption Optimization in Machining Processes 36
3. Machining with High-Pressure Cooling 60
4. Effect of Machining on the Fatigue Life of Steels 76
5. FEM Analysis and ANN Modeling for Optimizing Machinability Indicators during Dry Longitudinal Turning of Ti–6Al–4V ELI Alloy 95
6. Double-Tool Turning 119
7. Effect of Electrical Resistivity on the Electrical Discharge Machining Process 143
Index 171

3. Machining with High-Pressure Cooling

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