航天返回与遥感
航天返迴與遙感
항천반회여요감
SPACECRAFT RECOVERY & REMOTE SENSING
2013年
5期
20-28
,共9页
减速%半流伞%设计%超声速%气动特性
減速%半流傘%設計%超聲速%氣動特性
감속%반류산%설계%초성속%기동특성
deceleration%half-flow parachute%design%supersonic%aerodynamics
半流伞是一种典型的超声速减速伞,结构设计和气动特性分析是研究其工作性能的基础。文章结合某超声速减速伞设计实践,论述了超声速伞型的选择和半流伞结构设计方法。通过低速风洞试验、高速风洞试验和高速飞行投放试验,对半流伞气动特性、开伞特性及最大开伞动载进行了研究,获得了半流伞的摆角参数和阻力系数变化规律。研究结果表明,半流伞超声速段阻力系数减小是前置体尾流效应、伞形状变化及充气不稳定等综合因素造成的。火工动力开伞与倒拉法程序结合是开伞程序设计的关键。由于颤振和气动热的影响,超声速段开伞动载计算与亚声速段有明显不同。研究结果对超声速伞的稳定减速机理、结构优化设计和性能试验具有参考意义。
半流傘是一種典型的超聲速減速傘,結構設計和氣動特性分析是研究其工作性能的基礎。文章結閤某超聲速減速傘設計實踐,論述瞭超聲速傘型的選擇和半流傘結構設計方法。通過低速風洞試驗、高速風洞試驗和高速飛行投放試驗,對半流傘氣動特性、開傘特性及最大開傘動載進行瞭研究,穫得瞭半流傘的襬角參數和阻力繫數變化規律。研究結果錶明,半流傘超聲速段阻力繫數減小是前置體尾流效應、傘形狀變化及充氣不穩定等綜閤因素造成的。火工動力開傘與倒拉法程序結閤是開傘程序設計的關鍵。由于顫振和氣動熱的影響,超聲速段開傘動載計算與亞聲速段有明顯不同。研究結果對超聲速傘的穩定減速機理、結構優化設計和性能試驗具有參攷意義。
반류산시일충전형적초성속감속산,결구설계화기동특성분석시연구기공작성능적기출。문장결합모초성속감속산설계실천,논술료초성속산형적선택화반류산결구설계방법。통과저속풍동시험、고속풍동시험화고속비행투방시험,대반류산기동특성、개산특성급최대개산동재진행료연구,획득료반류산적파각삼수화조력계수변화규률。연구결과표명,반류산초성속단조력계수감소시전치체미류효응、산형상변화급충기불은정등종합인소조성적。화공동력개산여도랍법정서결합시개산정서설계적관건。유우전진화기동열적영향,초성속단개산동재계산여아성속단유명현불동。연구결과대초성속산적은정감속궤리、결구우화설계화성능시험구유삼고의의。
Half-flow parachute is a typical supersonic decelerator. Structural design and aerodynamic analysis are the basis of researching its working performance. With a practical design of a supersonic decelera-tor, this paper discusses the selection of supersonic parachutes and design methods for half flow parachute structure. Through low speed wind-tunnel test, high speed wind-tunnel test and high speed air drop test of the half-flow parachute, vibration angle parameters and the changing pattern of persistence coefficient are derived. Results show that the decrease of the persistence coefficient during supersonic period is due to complex factors such as front body wakes effect, deformation of the canopy and inflation instability. The combination of explo-sive device deployment and pull-down method is key to the design of deployment procedure. In attribute to vibration and aerodynamic heating, dynamic load calculation in supersonic stage is apparently different from that in subsonic stage. The researching results can provide a reference for stabilizing and decelerating mecha-nism, structural optimization and performance test of supersonic parachute.