CHINESE JOURNAL OF ENERGETIC MATERIALS
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基于响应面中心复合设计的固体推进剂摩擦感度理论
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1.北京理工大学化学与化工学院, 北京 102488;2.西安航天化学动力厂, 陕西 西安710025

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国防基础科研课题 JCKY2016203A008国防基础科研课题(JCKY2016203A008)


Theory of Friction Sensitivity of Solid Propellants Based on Center Composite Design of Response Surface
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1.School of Chemistry & Chemical Engineering, Beijing Institute of Technology, Beijing 100081, China;2.Xi′an Aerospace Chemical Propultion Plant, Xi′an 710025, China

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    摘要:

    为了确定固体推进剂生产过程中的各因素对摩擦感度的影响,采用响应面法(RSM)与中心复合试验设计(CCD)相结合,以摆锤角度、滑柱压力、试样温度为影响因素,以固体推进剂摩擦感度值为响应值设计试验,采用摩擦感度测试仪进行试验,并分析试验结果拟合了响应面模型。结果表明,在三个响应面评价精度指标中,相对均方根误差为0.14、决定系数R2为0.9309、校正拟合度为0.8686,说明方程拟合精度高且误差小;由模型方差分析得方差比值F为14.96,表明模型对响应面的影响程度较高;概率值p为0.0001,表明模型有0.01%的概率对响应面无影响;响应曲面图表明了各因素之间的相互作用;优化模型得到最小摩擦感度值所对应的三因素范围为角度小于45°,压力小于2 MPa,温度小于45 ℃。

    Abstract:

    To determine the influence of various factors in the production process of solid propellant on the friction sensitivity, the response surface methodology (RSM) combined with central composite design (CCD) was used to design the experiments based on the pendulum angle, the strut pressure and the sample temperature were taken as influencing factors, and the friction sensitivity value of solid propellant was considered as the response value. The friction sensitivity tester was used to test and analyze, the testing results were fitted to the response surface model. Results show that in three response surface evaluation accuracy indexes, the relative root mean square error RMSE is 0.14, the determination coefficient R2 is 0.9309, and the correction fitting degree is 0.8686, showing that the fitting precision of the equation is high and the error is small. The variance ratio F obtained by variance analysis of the model is 14.96, indicating that the model has a higher influence on the response surface. The probability value p is 0.0001, indicating that the probability of 0.01% of the model has no effect on the response surface. The response surface map shows the interaction between the various factors. The three-factor operating range corresponding to the minimum friction sensitivity value obtained by the model optimization is less than 45° in angle, less than 2 MPa in pressure, and less than 45 ℃ in temperature.

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引用本文

邵明旺,乔晓林,李兴刚,等.基于响应面中心复合设计的固体推进剂摩擦感度理论[J].含能材料, 2019, 27(6):509-515. DOI:10.11943/CJEM2018237.
SHAO Ming-wang, QIAO Xiao-lin, LI Xing-gang, et al. Theory of Friction Sensitivity of Solid Propellants Based on Center Composite Design of Response Surface[J]. Chinese Journal of Energetic Materials, 2019, 27(6):509-515. DOI:10.11943/CJEM2018237.

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历史
  • 收稿日期: 2018-08-29
  • 最后修改日期: 2019-03-01
  • 录用日期: 2018-11-19
  • 在线发布日期: 2019-02-28
  • 出版日期: 2019-06-25