Material Requirements
The rock bit must be stronger than the rock it is to drill. The measurement
of hard steel is measured on the “Rockwell” hardness tester scale (Rc). The
tester uses a diamond pyramid indenter with a load of 150 kilograms. The
deeper the indentation in the steel, the softer it is.
The degree of hardness that can be produced in steel is determined by its
carbon content, the higher the percentage of carbon (up to 0.7%), the
harder the steel. By heat treating properly, it can be made up to about 65
Rc. Alloying elements improve the hardening potential in thick sections
and cause the steel to have a more uniform response to heat treating. The
steel must also be ductile (resistance to crack propagation). This ductility
or “toughness” of metals is inversely related to hardness (the harder a
metal, the less ductile. The softer the steel, the more ductile). Alloying
elements improve the ductility of steels and toughness, and resistance to
failure from impact loads.
The rock bit must be stronger than the rock it is to drill. The measurement
of hard steel is measured on the “Rockwell” hardness tester scale (Rc). The
tester uses a diamond pyramid indenter with a load of 150 kilograms. The
deeper the indentation in the steel, the softer it is.
The degree of hardness that can be produced in steel is determined by its
carbon content, the higher the percentage of carbon (up to 0.7%), the
harder the steel. By heat treating properly, it can be made up to about 65
Rc. Alloying elements improve the hardening potential in thick sections
and cause the steel to have a more uniform response to heat treating. The
steel must also be ductile (resistance to crack propagation). This ductility
or “toughness” of metals is inversely related to hardness (the harder a
metal, the less ductile. The softer the steel, the more ductile). Alloying
elements improve the ductility of steels and toughness, and resistance to
failure from impact loads.