System for testing ultrasonic dynamic burning rate of solid propellant

A solid propellant and ultrasonic technology, which is applied to the analysis of solids using sound waves/ultrasonic waves/infrasonic waves, etc., can solve problems such as limited application range, low safety, and inability to measure, and achieve the effect of strong universality, simple and fast operation

Inactive Publication Date: 2011-06-15
XIDIAN UNIV +1
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Problems solved by technology

Although this type of method can measure the dynamic burning rate of solid propellants, its application range is limited. When the solid propellant has a large combustion smoke, it is difficult to accurately distinguish the combustion surface, so it cannot be accurately measured.
This type of method is also unable to measure the influence of inhomogeneity (such as glue block) or defects (such as cracks, bubbles, etc.) in th

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  • System for testing ultrasonic dynamic burning rate of solid propellant
  • System for testing ultrasonic dynamic burning rate of solid propellant
  • System for testing ultrasonic dynamic burning rate of solid propellant

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Embodiment Construction

[0019] Ultrasonic solid propellant dynamic burning rate measurement system is based on the basic principle of ultrasonic pulse echo method thickness measurement. During measurement, the ultrasonic probe emits ultrasonic pulses into the solid propellant sample, and when the transmitted wave pulse encounters the propellant burning surface, it returns an echo pulse due to a sudden change in acoustic resistance. Use the instrument to record the echo and the transmitted wave pulse and calculate the time difference (that is, the transit time of the ultrasonic wave in the propellant). Since the speed of sound in the propellant is known, the time difference can be calculated for the solid propellant sample (unburned part) thickness. During the propellant combustion process, the data of the thickness of the propellant over time can be obtained by periodic measurement (that is, the dynamic burning rate of the propellant), and the temperature and pressure of the combustion chamber can be ...

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Abstract

The invention discloses a system for testing ultrasonic dynamic burning rate of a solid propellant, comprising a burning chamber, a gas distribution unit and a testing and controlling unit, wherein an ultrasonic transmitting and receiving unit is arranged at the top or bottom of the burning chamber; the ultrasonic transmitting and receiving unit is composed of an ultrasonic probe and a coupling medium; the coupling medium is a cylinder; two end surfaces of the coupling medium are respectively closely contacted with a working surface of the ultrasonic probe and a sample of the solid propellant; and the testing and controlling unit is used for controlling initial temperature and pressure of the burning chamber, detecting temperature and pressure of the burning chamber, and real-time burning parameters of the solid propellant, controlling the ultrasonic waves of the ultrasonic probe for transmitting fixed frequencies, receiving echoes from a burning surface of the solid propellant, and collecting and processing data. The system can test parameters such as static burning rate, dynamic burning rate, burning rate pressure indexes, burning rate temperature sensitivity coefficients and the like; and the testing efficiency of the system is dozens of times than that of a static testing apparatus.

Description

Ultrasonic dynamic burning rate test system for solid propellants technical field The invention relates to a testing system for measuring the burning rate of solid propellants by an ultrasonic pulse echo method, which is used for measuring the dynamic burning rate of solid propellants and belongs to the technical field of testing instruments. Background technique The classic solid propellant static burning rate measurement methods such as the target line method and the acoustic emission method have been adopted by many scientific research institutes and production units due to their long history of development, mature technology, and detailed national standards. main method. However, they can only measure the average burning rate of the solid propellant, and cannot accurately measure the instantaneous burning rate of the solid propellant sample at each moment during the combustion process and the change of the burning rate during the combustion process, that is, the dynami...

Claims

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Application Information

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IPC IPC(8): G01N29/04
Inventor 刘科祥裴庆樊学忠赵凤起高红旭蔡德芳安亭
Owner XIDIAN UNIV
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