07-26-2014, 08:01 AM
Mechanical Properties Of Metals
Strength
The ability of a material to stand up to forces being applied without it bending, breaking, shattering or deforming in any way..
Elasticity
The ability of a material to absorb force and flex in different directions, returning to its original position.
Plasticity
The ability of a material to be change in shape permanently.
Ductility
The ability of a material to change shape (deform) usually by stretching along its length..
Tensile Strength
The ability of a material to stretch without breaking or snapping.
![[Image: ferrous2.jpg]](http://www.frontdesk.co.in/big/cm/ferrous2.jpg)
Malleability
The ability of a material to be reshaped in all directions without cracking.
Toughness
A characteristic of a material that does not break or shatter when receiving a blow or under a sudden shock.
Conductivity
The ability of a material to conduct electricity..
Hardness
The ability of a material to resist scratching, wear and tear & indentation.
Fatigue
Fatigue failures occur when metal is subjected to a repetitive or fluctuating stress and will fail at a stress much lower than its tensile strength.
Fatigue failures occur without any plastic deformation (no warning).
Fatigue surface appears as a smooth region, showing beach mark or origin of fatigue crack.
![[Image: fatigue.jpg]](http://www.frontdesk.co.in/big/cm/fatigue.jpg)
Fusibility
Fusibility is defined as the ability of a metal to become liquid by the application of heat. Metals are fused in welding. Steels fuse at approximately 2,500°F, and aluminum alloys at approximately 1,110°F.
Creep
The mechanical strength of metals decreases with increasing temperature and the properties become much more time dependent. Metals subjected to a constant load at elevated temperatures will undergo 'creep', a time dependent increase in length.
Creep in metals is defined as time dependent plastic deformation at constant stress (or load) and temperature.
Strength
The ability of a material to stand up to forces being applied without it bending, breaking, shattering or deforming in any way..
Elasticity
The ability of a material to absorb force and flex in different directions, returning to its original position.
Plasticity
The ability of a material to be change in shape permanently.
Ductility
The ability of a material to change shape (deform) usually by stretching along its length..
Tensile Strength
The ability of a material to stretch without breaking or snapping.
Malleability
The ability of a material to be reshaped in all directions without cracking.
Toughness
A characteristic of a material that does not break or shatter when receiving a blow or under a sudden shock.
Conductivity
The ability of a material to conduct electricity..
Hardness
The ability of a material to resist scratching, wear and tear & indentation.
Fatigue
Fatigue failures occur when metal is subjected to a repetitive or fluctuating stress and will fail at a stress much lower than its tensile strength.
Fatigue failures occur without any plastic deformation (no warning).
Fatigue surface appears as a smooth region, showing beach mark or origin of fatigue crack.
Fusibility
Fusibility is defined as the ability of a metal to become liquid by the application of heat. Metals are fused in welding. Steels fuse at approximately 2,500°F, and aluminum alloys at approximately 1,110°F.
Creep
The mechanical strength of metals decreases with increasing temperature and the properties become much more time dependent. Metals subjected to a constant load at elevated temperatures will undergo 'creep', a time dependent increase in length.
Creep in metals is defined as time dependent plastic deformation at constant stress (or load) and temperature.