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Slow Cook-off Characteristics of HTPB SRM with Different Structural Sizes
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1.State Key Laboratory of Explosive Science and Technology,Beijing Institute of Technology, Beijing 100081, China;2.Science and Technology on Aerospace Chemical Power Laboratory, Xiangyang 441003, China

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    Abstract:

    Slow cook-off test is one of the key tests of low vulnerability assessment for solid rocket motor. In order to study the influence of the charge size of HTPB composite propellant on the slow cook-off characteristics, slow cook-off tests and numerical simulation were carried out to compare and analyze the ignition growth laws of solid rocket motor under slow cook-off tests, with charge dimensions of Φ100 mm × 200 mm, Φ160 mm × 400 mm and Φ522 mm × 887 mm. Their corresponding ignition temperatures, ignition positions and response levels were determined. Results show that the ignition temperature of specimens of Ф100 mm×200 mm, Ф160 mm×400 mm and Ф522 mm×887 mm of solid rocket motors are 244 ℃, 172 ℃ and 155 ℃, respectively. Taking test data as inputs, the calculated ignition temperature is 250, 269, 154℃, and their corresponding calculation errors and response levelsare 2.88%, 1.17%, 0.64%, and explosion, explosion and deflagration. The calculated cloud diagram shows that the ignition position of medium and small test pieces is located in the center of charge cylinders, and the ignition position of full-scale solid motor is in the center of meat thickness of solid propellant front-end, which is a ring shape area.

    表 2 固体火箭发动机慢速烤燃试验后状态及响应等级Table 2 State and response level of SRM after slow cook-off test
    表 5 固体火箭发动机慢速烤燃点火温度及点火部位Table 5 Ignition temperature and ignition position of solid rocket motor under slow cook-off tests
    图2 大尺寸固体火箭发动机试验装置示意图Fig.2 Schematic diagram of full-scale SRM test device
    图4 大尺寸固体火箭发动机试验过程及残骸Fig.4 Experimental process and wreckage of full-size SRM
    图7 慢速烤燃试验温度-时间曲线Fig.7 Temperature-time curves of slow cook-off test
    图11 固体火箭发动机慢速烤燃试验与数值模拟温度-时间曲线Fig.11 Temperature-time curves of solid rocket motor under slow cook-off tests and numerical simulation
    表 3 热分解动力学参数[24]Table 3 Kinetic parameters of thermal decomposition
    表 4 材料参数Table 4 Material parameters
    表 1 慢速烤燃实验装置及其参数Table 1 Parameters of slow cook-off test device
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邓玉成,李军,任慧,等.不同结构尺寸丁羟发动机慢速烤燃特性[J].含能材料,2022,30(2):155-162.
DENG Yu-cheng, LI Jun, REN Hui, et al. Slow Cook-off Characteristics of HTPB SRM with Different Structural Sizes[J]. Chinese Journal of Energetic Materials,2022,30(2):155-162.

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History
  • Received:April 17,2021
  • Revised:May 26,2021
  • Adopted:August 02,2021
  • Online: March 17,2022
  • Published: February 25,2022