yield strength
yield stress , auch: yield point

At the same time, cold work increases gum metal's yield strength.

Not every area of the cross-section will have exceeded the yield strength.

In general the yield strength of the materials range from 36000 to 75000psi.

The elastic range ends when the material reaches its yield strength.

It may increase, decrease or leave unaffected the yield strength of the material.

So, by changing grain size one can influence dislocation movement and yield strength.

For the vast majority of materials the yield strength decreases with increasing temperature.

The greater the tensile cold working, the lower the compressive yield strength.

Yield strength - The stress a material can withstand without permanent deformation.

There is an inverse relationship between delta yield strength and grain size to some power, x.

Thus, the dislocations can move easily in the reverse direction and the yield strength of the metal is lower.

The higher the applied stress to move the dislocation, the higher the yield strength.

For these materials, the yield strength shows little variation between room temperature and several hundreds degree Celsius.

However, as the normal force increases, eventually the stresses in the plate's surface will exceed its yield strength.

It also must have a large volume with a low modulus of elasticity and a high material yield strength.

Generally the tensile and yield strength goes up with grade number for these "pure" grades.

In general, the yield strength increases with strain rate and decreases with temperature.

Yield strength is the lowest stress that produces a permanent deformation in a material.

Let a material have a yield strength and a fracture toughness in mode I .

There are several ways in which crystalline and amorphous materials can be engineered to increase their yield strength.

Often a separate factor of safety is applied to the yield strength and to the ultimate strength.

A cyclic load well below a material's yield strength can cause failure if it is repeated through enough cycles.

The yield strength requirements are higher for square and rectangular than for round tubing.

Higher dislocation density increases yield strength and causes work hardening of metals.

Designers can overcome these issues by choosing materials with higher yield strengths, however usually at higher costs.