Heat transfer Conductive

Conductive heat transfer is the process of transferring heat from one surface to another through contact between them. This process occurs due to the thermal conductivity of the material from which the surfaces are made.

Conductive heat transfer occurs when two surfaces are in contact with each other and the temperature of one is higher than the other. Heat is transferred from a more heated surface to a less heated one through thermal conductivity of the material. This leads to equalization of temperatures between surfaces.

In nature, conductive heat transfer is widespread. For example, when two metal objects come into contact, heat is transferred from one to the other. This process also occurs when a person’s hands come into contact with a surface that has a higher temperature.

However, conductive heat transfer can also be harmful to human health. For example, if a person is in a hot room and touches a cold object, this can lead to hypothermia. Therefore, it is important to consider conductive heat transfer when designing heating and air conditioning systems.

In addition, conductive heat transfer is an important factor in technology and industry. For example, in metallurgy, conductive heat transfer is used to heat metal workpieces before processing on machines. Conductive heat transfer is also used in the production of electronic components, where it is necessary to ensure uniform heat distribution over the entire surface of the device.

Thus, conductive heat transfer plays an important role in various areas of our life and technology. It is a simple and effective method of heat transfer, which allows you to achieve uniform temperature distribution and provide comfortable conditions for human work and life.



Conductive heat transfer is a type of heat transfer in which heat is transferred between bodies through contact. It is characterized by the fact that the total heat transfer is achieved due to the heat flow through the contact surface between two bodies.

The basic principle of conductive heat transfer is that