Principle:

The difference in heat flow derived from the temperature difference between a test specimen and a reference specimen is measured as a function of temperature or time while varying the temperature of the specimens in accordance with a controlled program. In this type of measurement, the difference in temperature between the test specimen and reference specimens is proportional to the difference in heat flow.

Principle:

Thermogravimetric analysis or thermal gravimetric analysis (TGA) is a method of thermal analysis in which the mass of a sample is measured over time as the temperature increases.

Samples can be either solids or liquids.

Principle:

Thermo Mechanic Analysis (TMA) is a method of thermal analysis in which one dimension of a sample is measured against the variation of temperature

Samples are simple-shaped solids or thin films.

Principle:

Materials can be classified V-0, V-1, or V-2 on the basis of results obtained from the combustion of samples clamped in a vertical position. The samples are clamped in a vertical position with a 20-mm high blue flame applied to the lower edge of the clamped specimen. The flame is applied for 10 seconds and removed. A total of five bars are tested in this manner. The table below lists the criteria by which a material is classified in this test.

Principle:

The test simulates conditions present when an exposed, current carrying conductor contacts an insulating material during faulty or overloaded operation. During the test, an electrical current is passed through a nickel-chromium loop in order to obtain a predetermined temperature. The sample is then brought in contact with the wire for 30 seconds. The test is passed if after withdrawal, the sample displays no flame or glowing, or if so, it is self-extinguishing after 30 seconds.

Principle:

The volume resistivity of a material is defined as the electrical resistance of a unit cube of material. The material is subjected to 500 volts DC for 1 minute, and the current through the material is measured.

The surface resistivity of a material is the electrical resistance between two electrodes on the surface of the specimen. The material is subjected to 500 volts DC for 1 minute, and the current along the surface of the material is measured.