摘要
Based on gas dynamics, thermodynamics, fluid dynamics of multiphase systems and other theories, the dynamic analyses of the particle flying velocity in a high velocity oxygen fuel spray (HVOF) is accomplished. The relationships between the flying velocity of a particle and the flying time or flying length, particle size, hot gas velocity, and pressure or density of the gas are proposed. Meanwhile, the influences of the velocity and mass rate of flow of the flame gas of a HVOF gun, and particle size on the particle flying velocity are discussed in detail. The dynamic pressure concept is introduced to express the flow capacity of hot gas of a HVOF gun, and the relationship between the dynamic pressure of a HVOF gun and the velocity of a particle for depositing is presented.
Based on gas dynamics, thermodynamics, fluid dynamics of multiphase systems and other theories, the dynamic analyses of the particle flying velocity in a high velocity oxygen fuel spray (HVOF) is accomplished. The relationships between the flying velocity of a particle and the flying time or flying length, particle size, hot gas velocity, and pressure or density of the gas are proposed. Meanwhile, the influences of the velocity and mass rate of flow of the flame gas of a HVOF gun, and particle size on the particle flying velocity are discussed in detail. The dynamic pressure concept is introduced to express the flow capacity of hot gas of a HVOF gun, and the relationship between the dynamic pressure of a HVOF gun and the velocity of a particle for depositing is presented.
