Cutting Data for Turning of Steel (eBook, ePUB) - Isakov, Edmund
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Mechanical Properties of Steel
Hardness | Carbon Steels | Alloy Steels | Stainless Steels | Tool Steels
Cutting Tools Materials
High Speed Steels | Cemented Carbides | Cermets | Ceramics | Polycrystalline Cubic Boron Nitride (PCBN)
Machining Recommendations
Depth of Cut and Feed Rate | Cutting Speeds for Carbon Steels | Cutting Speeds for Alloy Steels | Cutting Speeds for Stainless Steels | Cutting Speeds for Tool Steels
Machining Power
Metal Removal Rate | Unit Power and Power Constant | Calculating Required Machining Power
Appendix 1: Hardness…mehr

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Produktbeschreibung


Mechanical Properties of Steel

  • Hardness
  • Carbon Steels
  • Alloy Steels
  • Stainless Steels
  • Tool Steels


Cutting Tools Materials

  • High Speed Steels
  • Cemented Carbides
  • Cermets
  • Ceramics
  • Polycrystalline Cubic Boron Nitride (PCBN)


Machining Recommendations

  • Depth of Cut and Feed Rate
  • Cutting Speeds for Carbon Steels
  • Cutting Speeds for Alloy Steels
  • Cutting Speeds for Stainless Steels
  • Cutting Speeds for Tool Steels


Machining Power

  • Metal Removal Rate
  • Unit Power and Power Constant
  • Calculating Required Machining Power


Appendix 1: Hardness Conversion

Appendix 2: Carbon Steels

Appendix 3: Alloy Steels

Appendix 4: Stainless Steels

Appendix 5: Tool Steels

Machining is one of the most important manufacturing processes, which remove unwanted material in the form of chips from a workpiece. Material removal operations are among the most expensive; in the U.S. alone, more than $100 billion were spent on machining in 1999. These high costs put tremendous economic pressures on production managers and engineers as they struggle to find ways to increase productivity.

Machining recommendations provided in this book cover turning since it allows removing more material per unit of time and consuming more power at the roughing operations than end milling, boring or drilling. Machining recommendations relate to cutting speeds, feed rates, and depth of cuts. Such recommendations depend on the workpiece material properties and the cutting tool material. Workpiece materials described in this book are the most commonly used grades of carbon, alloy, stainless, tool, and maraging steels. Cutting tool materials are cemented carbides, cermets, and ceramics.

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Autorenporträt
Dr. Edmund Isakov. Ph.D., has enjoyed a long and distinguished career in metalworking. He earned his Doctor of Philosophy degree in Mechanical Engineering at the V. Bakul Institute for Superhard Materials (Kiev, Ukraine). He is known for his work in research, development and applications of cuttting tools for milling, turning and boring. Dr. Isakov has authored Mechanical Properties of Work Materials and numerous articles and papers on metalcutting. He holds several U.S. patents and numerous U.S.S.R Inventor's Certificates pertaining to carbide and diamond tools. during nearly two decades at Kennametal, Inc., he became a noted authority on the technical analysis of cutting tools. Dr. Isakov is now an independent consulant and manufacturing sciences writer based in Florida. He is a senior member of SME.