Curie temperature

In this case, is normally known as the Curie Temperature.

In order for this effect to happen, the material must be below its Curie Temperature.

It is at a material's specific Curie Temperature where they change directions.

At temperatures below the Curie temperature the substance may become ferromagnetic.

The point at which there is no magnetization anymore is called the Curie temperature.

High permeability below the Curie temperature in the workpiece is useful.

However, it has a Curie temperature of only 60 C, which limits its usability.

When a sample is cooled below the Curie temperature, for example, the equilibrium domain configuration simply appears.

The Curie Temperature is the critical point where intrinsic magnetic moments change directions.

A material is paramagnetic only above its Curie Temperature.

One technique used for demagnetization is to heat the object above its Curie Temperature.

Locating curie temperatures for known subsurface materials provides estimates on future plant productivity.

As a result many different dependencies that effect the Curie Temperature can be analysed.

The size of particles in a material's crystal lattice changes the Curie Temperature.

Another example are materials with a curie temperature below the superconducting transition temperature.

Above the Curie temperature, the material is paramagnetism so that magnetic moments are in a completely disordered state.

Hysteresis heating occurs below the Curie temperature where materials lose their magnetic properties.

(Its Curie temperature is hard to determine).

Materials are only ferromagnetic below their corresponding Curie Temperatures.

The alignment of magnetic moments in the composite material affects the Curie Temperature.

Therefore below the Curie temperature virtually all of the dipoles in a ferromagnetic material will be aligned.

Replies: The main keywords you are looking for are Curie temperature.

This is simply because the Curie temperature of neodymium magnets is unusually low.

The Curie temperature of magnetite is 858 K.

The 1980s saw the development of rare earth magnets with high energy products but undesirably low Curie temperatures.