哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2009年
9期
1029-1034
,共6页
刘吉成%高海波%邓宗全%毕贞法%张玉花
劉吉成%高海波%鄧宗全%畢貞法%張玉花
류길성%고해파%산종전%필정법%장옥화
地面力学%月球车%力学模型%应力分布%驱动轮%单轮测试系统
地麵力學%月毬車%力學模型%應力分佈%驅動輪%單輪測試繫統
지면역학%월구차%역학모형%응력분포%구동륜%단륜측시계통
terramechanics%lunar rover%wheel-soil contact model%stress distribution%driving wheel%single wheel testbed
为给月球车结构设计、运动控制和模拟仿真等提供必要的轮-地相互作用理论模型,基于车轮与松散沙土间的承压、剪切特性理论,建立了鼓形驱动轮与松散沙土相互作用力学模型.通过分析轮-地接触法向应力与切向应力分布,考虑最大法向应力向车轮前方偏移的现象,引入最大法向应力角随滑转率变化的理论公式,分析鼓形轮运动特性指标与松散沙土力学参数及车轮参数间的定量关系.依据松散沙土力学参数测量,指出剪切变形模量与接地比压的定量表达式,通过分析鼓形轮的接地面积,确定对应于载荷的剪切变形模量值.利用月球车车轮运动性能综合测试系统进行了鼓形轮在松散沙土上的滚动力学实验,结果验证了利用该理论模型预测鼓形轮运动性能的可行性.
為給月毬車結構設計、運動控製和模擬倣真等提供必要的輪-地相互作用理論模型,基于車輪與鬆散沙土間的承壓、剪切特性理論,建立瞭鼓形驅動輪與鬆散沙土相互作用力學模型.通過分析輪-地接觸法嚮應力與切嚮應力分佈,攷慮最大法嚮應力嚮車輪前方偏移的現象,引入最大法嚮應力角隨滑轉率變化的理論公式,分析鼓形輪運動特性指標與鬆散沙土力學參數及車輪參數間的定量關繫.依據鬆散沙土力學參數測量,指齣剪切變形模量與接地比壓的定量錶達式,通過分析鼓形輪的接地麵積,確定對應于載荷的剪切變形模量值.利用月毬車車輪運動性能綜閤測試繫統進行瞭鼓形輪在鬆散沙土上的滾動力學實驗,結果驗證瞭利用該理論模型預測鼓形輪運動性能的可行性.
위급월구차결구설계、운동공제화모의방진등제공필요적륜-지상호작용이론모형,기우차륜여송산사토간적승압、전절특성이론,건립료고형구동륜여송산사토상호작용역학모형.통과분석륜-지접촉법향응력여절향응력분포,고필최대법향응력향차륜전방편이적현상,인입최대법향응력각수활전솔변화적이론공식,분석고형륜운동특성지표여송산사토역학삼수급차륜삼수간적정량관계.의거송산사토역학삼수측량,지출전절변형모량여접지비압적정량표체식,통과분석고형륜적접지면적,학정대응우재하적전절변형모량치.이용월구차차륜운동성능종합측시계통진행료고형륜재송산사토상적곤동역학실험,결과험증료이용해이론모형예측고형륜운동성능적가행성.
Based on pressure sinkage laws and shear stress-displacement relationships in terramechanics, a mathematical model was developed to describe the motion performance of a drum type wheel. This should improve design, motion control, and vehicle simulation for the lunar rover. After establishing quantitative relationships between motion performance, soil properties and wheel dimensions, the drum wheel was divided into many slim cylindrical wheels. When analyzing radial and tangential stress distributions under the wheel-soil interface, it was found that maximum radial stress occurs in front of bottom-dead-centre and shifts forward when increasing slip is taken into account. On the basis of parameter measurements of loose sandy soil, the relationship between shear modulus and contact pressure was introduced. For theoretical analysis, the value of shear modulus which corresponds to load exerted on the experiment wheel was obtained by defining the area of drum wheel-soil contact. Experimental results from a single-wheel testbed operated in loose sandy soil shows that this model for predicting drum wheel performance is reliable.
