载人航天
載人航天
재인항천
MANNED SPACEFLIGHT
2014年
2期
110-115
,共6页
游进%侯向阳%赖松柏%周强
遊進%侯嚮暘%賴鬆柏%週彊
유진%후향양%뢰송백%주강
载人密封舱%裂纹损伤%裂纹扩展%失效评估
載人密封艙%裂紋損傷%裂紋擴展%失效評估
재인밀봉창%렬문손상%렬문확전%실효평고
habitable module%crack damage%crack growth%failure analysis
入轨后的载人密封舱体结构存在一定程度的初始裂纹,微流星与空间碎片的撞击会使密封舱体结构产生新的裂纹损伤,密封舱体为薄壁结构,长期在轨飞行期间,在各种载荷的作用下,裂纹损伤可能导致密封舱体失效。考虑到不同的裂纹损伤来源及其转化,提出了载人密封舱体结构总体失效分析方法。首先提出了载人密封舱体结构在轨期间由裂纹损伤导致失效的两类模式及判定依据,并说明了各裂纹损伤间的转化关系;然后,说明了基于Forman模型进行舱体裂纹扩展分析的原理;最后,对某在轨飞行15年的载人密封舱结构因舱压导致的结构失效进行了分析,确定了舱体结构上的断裂失效危险部位及危险裂纹形式,并得到穿透裂纹的临界长度。
入軌後的載人密封艙體結構存在一定程度的初始裂紋,微流星與空間碎片的撞擊會使密封艙體結構產生新的裂紋損傷,密封艙體為薄壁結構,長期在軌飛行期間,在各種載荷的作用下,裂紋損傷可能導緻密封艙體失效。攷慮到不同的裂紋損傷來源及其轉化,提齣瞭載人密封艙體結構總體失效分析方法。首先提齣瞭載人密封艙體結構在軌期間由裂紋損傷導緻失效的兩類模式及判定依據,併說明瞭各裂紋損傷間的轉化關繫;然後,說明瞭基于Forman模型進行艙體裂紋擴展分析的原理;最後,對某在軌飛行15年的載人密封艙結構因艙壓導緻的結構失效進行瞭分析,確定瞭艙體結構上的斷裂失效危險部位及危險裂紋形式,併得到穿透裂紋的臨界長度。
입궤후적재인밀봉창체결구존재일정정도적초시렬문,미류성여공간쇄편적당격회사밀봉창체결구산생신적렬문손상,밀봉창체위박벽결구,장기재궤비행기간,재각충재하적작용하,렬문손상가능도치밀봉창체실효。고필도불동적렬문손상래원급기전화,제출료재인밀봉창체결구총체실효분석방법。수선제출료재인밀봉창체결구재궤기간유렬문손상도치실효적량류모식급판정의거,병설명료각렬문손상간적전화관계;연후,설명료기우Forman모형진행창체렬문확전분석적원리;최후,대모재궤비행15년적재인밀봉창결구인창압도치적결구실효진행료분석,학정료창체결구상적단렬실효위험부위급위험렬문형식,병득도천투렬문적림계장도。
The existence of cracks in the structure of habitable module , which originates from the fabrication process , is inevitable .The impingement of micrometeoroid/orbital debris on the module in space may cause new crack damages to the main structure .In addition, main structures of habita-ble modules are usually made of thin-walled components , so due to the loads imposed by a variety of factors, the crack damage on the module structures may lead to the failure of the module .Consider-ing the different origins of crack damage and the possible transition among them , an integrated fail-ure assessment method for the habitable module structure was developed .First, two failure modes of habitable module structures and the criteria for failure assessment were proposed .Then, the method predicting the crack growth for the habitable module structure , which was based on Forman equa-tion, was presented.In the end, the failure analysis was performed for a module of 15 years’ serv-ice life, where structure failure due to pressure load was considered .The critical positions on the module structure and corresponding crack mode were identified , and the critical length of the through crack was obtained .