中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2012年
14期
1722-1725
,共4页
李宝峰%郑坚%倪新华%孙涛%付云伟
李寶峰%鄭堅%倪新華%孫濤%付雲偉
리보봉%정견%예신화%손도%부운위
棒状共晶团%复合陶瓷%细观强度模型%界面应力%长径比%剪滞法
棒狀共晶糰%複閤陶瓷%細觀彊度模型%界麵應力%長徑比%剪滯法
봉상공정단%복합도자%세관강도모형%계면응력%장경비%전체법
stick eutectic colony%composite ceramic%mesomechanical strength model%interfacestress%slenderness ratio%shear-- lag method
以剪滞法为基础推导了棒状共晶团外加远场拉伸应力与共晶团界面极限剪应力、共晶团体积含量、共晶团长径比之间关系的解析表达式,进而得到含棒状共晶团复合材料的拉伸强度与基体极限剪应力之间的理论表达式。计算过程中将共晶团长径比的概率统计分布规律引入到计算模型中,并考虑了棒状共晶团方位的随机分布。定义了共晶团达到最大剪应力的共晶团长度占共晶团整个长度的比值β,当加权平均的卢值超过材料的许用值[β]时,材料发生剪切破坏。[β]的取值由材料自身的性质决定,可以通过试验确定。分析了复合材料的[β]的取值与其强度的关系,并在MATLAB中实现了编程计算。
以剪滯法為基礎推導瞭棒狀共晶糰外加遠場拉伸應力與共晶糰界麵極限剪應力、共晶糰體積含量、共晶糰長徑比之間關繫的解析錶達式,進而得到含棒狀共晶糰複閤材料的拉伸彊度與基體極限剪應力之間的理論錶達式。計算過程中將共晶糰長徑比的概率統計分佈規律引入到計算模型中,併攷慮瞭棒狀共晶糰方位的隨機分佈。定義瞭共晶糰達到最大剪應力的共晶糰長度佔共晶糰整箇長度的比值β,噹加權平均的盧值超過材料的許用值[β]時,材料髮生剪切破壞。[β]的取值由材料自身的性質決定,可以通過試驗確定。分析瞭複閤材料的[β]的取值與其彊度的關繫,併在MATLAB中實現瞭編程計算。
이전체법위기출추도료봉상공정단외가원장랍신응력여공정단계면겁한전응력、공정단체적함량、공정단장경비지간관계적해석표체식,진이득도함봉상공정단복합재료적랍신강도여기체겁한전응력지간적이론표체식。계산과정중장공정단장경비적개솔통계분포규률인입도계산모형중,병고필료봉상공정단방위적수궤분포。정의료공정단체도최대전응력적공정단장도점공정단정개장도적비치β,당가권평균적로치초과재료적허용치[β]시,재료발생전절파배。[β]적취치유재료자신적성질결정,가이통과시험학정。분석료복합재료적[β]적취치여기강도적관계,병재MATLAB중실현료편정계산。
Based on shear-lag method, the relationships of the far field stress of the stick eutectic colony,the interface shear stress of the stick eutectic colony, the volume content of the stick eutectic colony and the slenderness ratio of the stick eutectic colony were derived. And then the tensile- strength of composite ceramics was got. The probability distribution of the slenderness ratio of the stick eutectic colony was leaded in the strength model. And the random orientation of stick eutectic colony was considered. The ratio β which stands for the length ratio maximizing the interface shear stress of the stick eutectic colony was leaded in the strength model. The ratio [β] was decided according to the material and can be got by experiments. The influences ofβ on the composite ceramics were analyzed. And the calculation programming was compiled in MATLAB.