Microstructure and Mechanical Properties a New Iron-Base Material Used for the Fabrication of Sintered Diamond Tools

Joanna Borowiecka-Jamrozek; Janusz Konstanty

doi:10.4028/www.scientific.net/AMR.1052.520

Paper Titles

Application of Taguchi Method to the Optimal Parameters of Injection Molding for the Plastic Components of the Braille Display Cell
p.495

Material Phase Transformation during Grinding
p.503

Fatigue Behavior of Friction Spot Stir Welding with No-Keyhole of Aluminum Alloy
p.509

Ferrous Ball-Milled Powders for the Fabrication of Sintered Diamond Tools
p.514

Microstructure and Mechanical Properties a New Iron-Base Material Used for the Fabrication of Sintered Diamond Tools
p.520

Study on the Abrasive Wear of Mo-Alloy Sprayed Piston Ring
p.524

Study on Pyrolysis Methods and Equipment of the Waste Rubber
p.529

Influence of Liner Yield Strength on Performance of CNG-II Composite Cylinder
p.537

The Analysis and Design of Electric Cooker
p.543

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1052Microstructure and Mechanical Properties a New...

Microstructure and Mechanical Properties a New Iron-Base Material Used for the Fabrication of Sintered Diamond Tools

Abstract:

The main objective of the present work is to characterise the microstructure and mechanical properties of a new iron-base material which has been recently gaining ground in the manufacture of diamond impregnated tools as an economical substitute for cobalt and cobalt alloys. Its density, hardness and yield test properties have been directly compared to those of hot pressed Cobalt Extra Fine (CoEF) powder. It has been shown that the raw iron-663 bronze powder mix can be consolidated to a virtually pore-free condition by hot pressing at 880°C. Although the as-consolidated material is inferior to cobalt, it displays a favourable combination of hardness, yield strength and ductility, and seems to have a great potential for moderate and general purpose applications.