Observations of the flight of meteoric bodies from ground and orbital stations fix the intensity of their luminescence along the trajectory. The results of observation are usually represented in the form of a graph — the luminosity curve. For large meteoroids (diameter more than 10 cm) a sharp increase in its emission at the end of the flight is often recorded, the so-called "final flash". With large body sizes some authors also introduce the concept of "meteor explosion" because of the effects that motion and destruction of the body in the atmosphere produces on the surface of the Earth (shock and heat wave). In this paper, authors propose a model for the destruction of a fireball and a model for the transition of its kinetic energy to thermal energy. Authors consider the destruction of the bolide into many fragments as if a solid body destruction in an explosion. After crushing the kinetic energy of the moving particles of the meteoric body passes into the thermal energy of the gas volume in which their motion occurs. Assuming the known distribution of the meteoroid fragments by mass after crushing, a temperature is obtained in a cloud of gas and particles for specific conditions of the Chelyabinsk event. The high temperature of the gas in such a cloud allows us to talk about the phenomenon of "thermal explosion".

В настоящей работе предлагается модель разрушения болида и модель перехода его кинетической энергии в тепловую. Авторы полагают разрушение болида на множество фрагментов, подобное разрушению твердого тела при взрыве. Полагая известным распределение фрагментов метеороида по массам после дробления, получена температура в облаке газа и частиц для конкретных условий Челябинского события. Высокая температура газа в таком облаке позволяет говорить о явлении "теплового взрыва".