Internal ballistic simulation of multi-burning-rate solid rocket motor based on parameterized feature CAD modelInternal ballistic simulation of multi-burning-rate solid rocket motor based on parameterized feature CAD model 被引量：1

Internal ballistic simulation of multi-burning-rate solid rocket motor based on parameterized feature CAD model

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摘要 Internal ballistic simulation(IBS)method of multi-burning-rate solid rocket motor(SRM)was developed based on 3-D burning regression method by parameterized feature CAD model(PFCADM)and lumped parameter,in consideration of time-dependent,erosive-burning-effect from internal ballistic numerical algorithm.By driving multi-parameter CAD model based on PFCADM,the approach is capable of conducting the geometric regression simulation of various grain combinations of complex configurations with different burning rates.Through suitably simplifying the internal ballistic numerical algorithm,the problems of coupling geometric regression simulation of sub-grains of different burning rates and high computational consumption of internal ballistic calculation were solved.One tri-burning-rate grain motor,which had been firing-tested,was used as the validation case of simulation.The results show that,with the 3-D grain regression model and sufficient accurate internal ballistic algorithm,the method realizes IBS of the case in low computationalconsumption prediction of its performance within the accuracy of 2% during 1hclock-time.The application of the method provides a practical approach to aid SRM design of multi-burning-rate grain. Internal ballistic simulation(IBS)method of multi-burning-rate solid rocket motor(SRM)was developed based on 3-D burning regression method by parameterized feature CAD model(PFCADM)and lumped parameter,in consideration of time-dependent,erosive-burning-effect from internal ballistic numerical algorithm.By driving multi-parameter CAD model based on PFCADM,the approach is capable of conducting the geometric regression simulation of various grain combinations of complex configurations with different burning rates.Through suitably simplifying the internal ballistic numerical algorithm,the problems of coupling geometric regression simulation of sub-grains of different burning rates and high computational consumption of internal ballistic calculation were solved.One tri-burning-rate grain motor,which had been firing-tested,was used as the validation case of simulation.The results show that,with the 3-D grain regression model and sufficient accurate internal ballistic algorithm,the method realizes IBS of the case in low computationalconsumption prediction of its performance within the accuracy of 2% during 1hclock-time.The application of the method provides a practical approach to aid SRM design of multi-burning-rate grain.

作者 CHEN Wei LIANG Guo-zhu

机构地区 School of Astronautics

出处《航空动力学报》 EI CAS CSCD 北大核心 2015年第12期3017-3028,共12页 Journal of Aerospace Power

关键词 solid rocket motor INTERNAL ballistic simulatio multi-burning-rate grain design unsteady flow solid rocket motor internal ballistic simulation multi-burning-rate grain design unsteady flow

分类号 V435 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献4

1鲍福廷,赵飞,李进贤.串联双燃速固体火箭发动机一维内弹道计算[J].固体火箭技术,2002,25(1):5-7. 被引量：1
2Ali Kamran.Design and Optimization of 3D Radial Slot Grain Configuration[J].Chinese Journal of Aeronautics,2010,23(4):409-414. 被引量：5
3李宏顺,孙兵.双燃速固体火箭发动机零维两相内弹道方程及其工程算法[J].弹箭与制导学报,2009,29(4):150-153. 被引量：2
4Khurram Nisar,Qasim Zeeshan.A Hybrid Optimization Approach for SRM FINOCYL Grain Design[J].Chinese Journal of Aeronautics,2008,21(6):481-487. 被引量：5

二级参考文献20

1李宏顺.单和双燃速固体发动机零维内弹道方程探讨[J].华中科技大学学报（自然科学版）,2007,35(12):103-106. 被引量：2
2周华盛.药柱通用坐标计算法计算结果跳动的原因分析及解决途径[J].固体火箭技术,1994,17(3):8-16. 被引量：10
3Brooks W T. Solid propellant grain design and internal ballistics. NASA SP-8076, 1972.
4Dunn S S, Coats D E. 3-D grain design and ballistic analysis using SPP97 code. AIAA-97-3340, 1997.
5Sforzini R H. An automated approach to design of solid rockets utilizing a special internal ballistic model. AIAA-80-1135, 1980.
6Larnberty J T. A report on grain design and internal ballistic module of the improved solid performance program. AIAA-81-0034 1981.
7Lee K Y, Cho S, Roh M I. An efficient global-local hybrid optimization method using design sensitivity analysis. Journal of Vehicle Design 2002; 28(4): 300-317
8Montastruc L, Azzaro-Pantel C, Pibouleau L, et al. Use of genetic algorithms and gradient based optimization techniques for calcium phosphate precipitation. Chemical Engineering and Processing 2004; 43(10): 1289-1298.
9Khurram N, Liang G Z. Finocyl grain design and optimization using sequential quadratic programming. Computer Aided Drafting Design and Manufacturing 2008; 18(1): 354-359
10Goldberg D E. Genetic algorithms in search, optimization, and machine learning. Boston: Addison-Wesley Longman Publishing Inc., 1989.

共引文献8

1Ali Kamran.Design and Optimization of 3D Radial Slot Grain Configuration[J].Chinese Journal of Aeronautics,2010,23(4):409-414. 被引量：5
2All Kamran LIANG Guo-zhu.Design and optimization of solid rocket motor Finocyl grain using simulated annealing[J].航空动力学报,2011,26(4):917-923. 被引量：4
3Amer Farhan RAFIQUE,HE Linshu,Ali KAMRAN,Qasim ZEESHAN.Hyper Heuristic Approach for Design and Optimization of Satellite Launch Vehicle[J].Chinese Journal of Aeronautics,2011,24(2):150-163. 被引量：3
4王作超,傅德彬.火箭发动机参数辨识模型与方法[J].弹箭与制导学报,2019,39(6):33-36.
5Pengfei REN,Hongbo WANG,Guofeng ZHOU,Jiani LI,Qiang CAI,Jiaquan YU,Ya YUAN.Solid rocket motor propellant grain burnback simulation based on fast minimum distance function calculation and improved marching tetrahedron method[J].Chinese Journal of Aeronautics,2021,34(4):208-224. 被引量：2
6张艺仪,何允钦,李文韬,梁国柱.基于Pro/E的参数化驱动固体发动机模装设计[J].固体火箭技术,2023,46(5):653-662.
7刘瑞东,相升海,杨艳羽,于兵,杨丽.平底翼柱型药柱燃烧规律的研究[J].固体火箭技术,2019,42(1):36-41.
8相升海,杨艳羽,李世鹏,闫利伟,刘瑞东,于兵.减小半球锥柱型药柱残药率的研究[J].航空动力学报,2019,34(6):1389-1398. 被引量：1

同被引文献10

1黄跃生,杨宗诚,黎鳌.Effects of thromboxane and prostacyclin imbalance on hemodynamics and hemorrheology in severely burn patients[J].Journal of Medical Colleges of PLA(China),1991,6(4):299-303. 被引量：1
2李继洋,惠雷.立止血与皮肤软组织扩张术在老年烧伤整形患者中的临床疗效及安全性[J].中国老年学杂志,2015,35(2):398-399. 被引量：13
3刘爱兰,张彩霞,王继桓.皮肤再生医学治疗大面积烧伤病人的护理要点[J].中国烧伤创疡杂志,2005,17(2):110-113. 被引量：10
4张定敏,李虹.立止血与皮肤软组织扩张术在烧伤整形中的临床疗效及安全性评价[J].临床和实验医学杂志,2013,12(24):1987-1989. 被引量：8
5张定敏,李虹.复合皮移植与皮肤软组织扩张术在烧伤整形治疗中的应用效果对比[J].中国医药导报,2014,11(6):53-55. 被引量：31
6Jing Li,Yu Bo,Shaodong Xie.Estimating emissions from crop residue open burning in China based on statistics and MODIS fire products[J].Journal of Environmental Sciences,2016,28(6):158-170. 被引量：20
7Peng Li,Wang Yadong,Chang Xiaorong,Wu Huangan,Liu Mi,Ma Fuqiang,Wang Hong,Chen Jiaolong,Wang Chao,Quan Renfu,Yang Zongbao.Effect of moxa-burning heat stimulating Liangmen(ST 21) and Zusanli(ST 36) on proliferation and apoptosis signaling proteins in rats with stress-induced gastric ulcer[J].Journal of Traditional Chinese Medicine,2016,36(3):340-346. 被引量：9
8黄志见,胡官鸿,朱振洪,殷炜,马周瑞.复合皮移植与皮肤软组织扩张术在烧伤整形治疗中的应用效果分析[J].中国医疗美容,2016,6(6):32-34. 被引量：14
9练祝平,邹永通,戴胜安,张宝清.复合皮移植与皮肤软组织扩张术在烧伤整形治疗中的应用效果[J].吉林医学,2017,38(12):2347-2348. 被引量：13
10温德海.复合皮移植与皮肤软组织扩张术在烧伤整形治疗中的应用效果对比分析[J].中国继续医学教育,2017,9(27):84-85. 被引量：12

引证文献1

1陈少华,李靖.对比复合皮移植、皮肤软组织扩张术应用于烧伤整形治疗中的临床效果[J].中国医疗美容,2018,8(4):22-25. 被引量：9

二级引证文献9

1左玉梅,王林.皮肤软组织扩张术用于烧伤整形63例的临床分析[J].世界最新医学信息文摘,2019,0(79):35-36. 被引量：3
2翟艳斌.用复合皮移植术和皮肤软组织扩张术对烧伤患者进行整形治疗的效果对比[J].当代医药论丛,2019,17(5):89-91. 被引量：3
3王常印.全厚皮移植整形技术在小面积深度烧伤中的应用[J].深圳中西医结合杂志,2019,29(13):82-83.
4樊昌伟,韩志新,李振超,牛大伟,余建功.皮肤软组织扩张术对烧伤整形患者皮肤创面愈合及血运恢复时间的影响[J].中国医疗美容,2019,9(10):39-43. 被引量：1
5毛娇娣,王湘,潘丽亚.复合皮移植与皮肤软组织扩张术在烧伤整形治疗中的效果观察与护理[J].护理实践与研究,2020,17(4):73-75. 被引量：9
6李莉莉,张承德,王进勇,邹晓辉,吴德勇,徐向荣,李波.复合皮移植术与皮肤软组织扩张术在烧烫伤整形患者治疗中的效果比较[J].中国民康医学,2020,32(14):111-112. 被引量：5
7梁建国.复合皮移植联合亲水性银离子辅料治疗足踝部深度烧伤的疗效评估及对血清ALB、ICAM-1、可溶性E-选择素的影响[J].当代医学,2021,27(16):104-106.
8刘炯波,卢勇.复合皮移植术及皮肤软组织扩张术在烧伤整形治疗中的效果观察[J].河南医学高等专科学校学报,2021,33(3):317-319. 被引量：2
9宋成,殷培培,孙颖.皮肤软组织扩张技术在面颈部瘢痕手术中的应用效果及对瘢痕恢复的影响研究[J].中国医疗美容,2019,9(2):48-52. 被引量：6

1K Nisar LIANG Guo-zhu A Kamran.Preliminary design and optimization of slotted tube grain for solid rocket motor[J].航空动力学报,2008,23(12):2332-2340. 被引量：3
2AHMED W M.Ballistic Properties of Some Low Solid Loading Butalites Formulations[J].Computer Aided Drafting,Design and Manufacturing,2010,20(2):42-47.
3周鸿儒,顾忠华,韩万金,刘占生.Numerical simulation of HP rotor cooling configuration using parameterized method[J].Journal of Harbin Institute of Technology(New Series),2011,18(2):134-138.
4KHURRAM Nisar,QASIM Zeeshan.Finocyl Grain Design and Optimization Using Sequential Quadratic Programming[J].Computer Aided Drafting,Design and Manufacturing,2008,18(1):1-11.
5陈文光.铸剑DF2 BALLISTIC-回忆中国东风2号导弹研制[J].海陆空天惯性世界,2003(3):60-63.
6DENG Bin,SHEN ZhiBin,DUAN JingBo,TANG GuoJin.Finite element method for viscoelastic medium with damage and the application to structural analysis of solid rocket motor grain[J].Science China(Physics,Mechanics & Astronomy),2014,57(5):908-915. 被引量：2
7Zhu Junqiang,Liu Zhiwei,Ma Cunbao(Faculty 704, Northwestern Polytechnical University, Xi’an, China, 710072).EXPERIMENTAL STUDY ON THE STALL FLOW FOR DIFFERENT GEOMETRIC PARAMETERS OF CASCADE[J].Chinese Journal of Aeronautics,1994,7(2):102-109.
8马艳丽,姜毅,郝继光,刘伯伟.Research on the Initial Ignition of the Underwater Launching Solid Rocket Motor[J].Journal of Beijing Institute of Technology,2010,19(4):422-426. 被引量：1
9LI XinTian,TIAN Hui,CAI GuoBiao.Numerical analysis of fuel regression rate distribution characteristics in hybrid rocket motors with different fuel types[J].Science China(Technological Sciences),2013,56(7):1807-1817. 被引量：11
10LiuTongren,MaDongli(Faculty 509,Beijing University of Aeronautics and Astronautics.)Beijing,China,100083).A CALCULATION OF OPTIMAL FLIGHT TRAJECTORY USING THE PARAMETERIZED OPTIMIZATION METHOD[J].Chinese Journal of Aeronautics,1995,8(2):81-88. 被引量：1

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