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The toughness of a material is the maximum amount of energy it can absorb before fracturing, which is different from the amount of force that can be applied. Toughness tends to be small for brittle materials, because elastic and plastic deformations allow materials to absorb large amounts of energy. Hardness increases with decreasing particle size.
Bearing metals and other very soft or thin materials: 130: 500 R: HRR: 60: 1 ⁄ 2 in (12.70 mm) ball: Thermoplastics, bearing metals, and other very soft or thin materials: 130: 500 S: HRS: 100: 1 ⁄ 2 in (12.70 mm) ball: Bearing metals and other very soft or thin materials: 130: 500 V: HRV: 150: 1 ⁄ 2 in (12.70 mm) ball: Bearing metals and ...
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"Soft" magnetic materials with low coercivity and hysteresis, such as silicon steel, or ferrite, are usually used in cores. Magnetic field ( green ) created by a current-carrying winding (red) in a typical magnetic core transformer or inductor, with the iron core C forming a closed loop, possibly with air gaps G in it.
A material is also considered hard if it resists plastic deformation. If a material has short covalent bonds, atomic dislocations that lead to plastic deformation are less likely to occur than in materials with longer, delocalized bonds. If a material contains many delocalized bonds it is likely to be soft. [10]
Soft thermoplastics have a rather large plastic deformation range as do ductile metals such as copper, silver, and gold. Steel does, too, but not cast iron. Hard thermosetting plastics, rubber, crystals, and ceramics have minimal plastic deformation ranges.
Hardness measurements quantify the resistance of a material to plastic deformation. Indentation hardness tests compose the majority of processes used to determine material hardness, and can be divided into three classes: macro, micro and nanoindentation tests. [2] [3] Microindentation tests typically have forces less than 2 N (0.45 lb f ...
Material hardening is required for many applications: Machine cutting tools (drill bits, taps, lathe tools) need be much harder than the material they are operating on in order to be effective. Knife blades – a high hardness blade keeps a sharp edge. Bearings – necessary to have a very hard surface that will withstand continued stresses.