摘要
压裂泵头体作为压裂技术的硬件支撑,相贯线处的开裂失效严重制约了其工作寿命。采用理论分析和数值分析的方法,对泵头体相贯线的裂尖应力场进行了研究。结果表明,裂尖应力分量σ11和σ33的高阶t11、t33项对相贯线处裂尖应力场的影响显著;张开应力σ22的高阶项对裂尖应力场影响不显著,相比于单参数模型,K-t11-t33模型可以更好描述相贯线处的裂尖应力场。离面应力σ33的高阶项t33与t11和离面应变ε33有关,但主要由ε33决定。通过研究裂纹前缘不同位置的应变ε33,结果表明,越靠近两个内腔表面,其应变量越大;越远离两个内腔表面,应变量ε33越小,裂尖应力状越接近平面应变状态。通过研究相贯内腔的裂尖应力场,建立其裂尖应力场的理论模型,可以为相贯内腔结构的临界断裂条件和寿命预估奠定基础。
Fracturing pump as a key equipment of fracturing technology used in the oil and gas production,the crack failure at intersecting line has become a main factor that hinder its working life.The theoretical analysis and numerical calculation are applied to research the stress field of crack tip.The results show that the higher order term t 11 and t 33 respectively corresponding to the stressσ11 andσ33 have distinct influences on the stress filed,while the higher order term of opening stress does not.The K-t 11-t 33 theoretical model can describe the stress field better compared with the single parameter model.The higher order term t 33 of out-plane stress is related to t 11 and out-plane strainε33,but it is mainly decided byε33.The change trend ofε33 along the crack front is researched,the results show thatε33 is bigger as the place is closer to chamber surface.At the middle place of the crack front,where is far away from the free surface,theε33 is close to zero.In this case,the stress field of crack tip is similar with plane strain state.By studying the stress filed of crack tip,a better description model of crack tip of fracturing pump is built,which is the base of research on fracture criterion and fatigue life prediction.
作者
张思
周思柱
ZHANG Si;ZHOU Si-zhu(Institute for Strength and Vibration of Mechanical Structures,Yangtze University,Jingzhou 434023,China)
出处
《科学技术与工程》
北大核心
2018年第9期78-85,共8页
Science Technology and Engineering
基金
国家自然科学基金(51674040
51374041)
湖北省自然科学基金(2016CFC740)资助
关键词
泵头体
相贯线
应力场
裂纹尖端
fracturing pump
intersecting line
stress field
crack tip
作者简介
第一作者:张思(1990—),博士研究生。研究方向:石油矿场机械、疲劳与断裂。E-mail:Medeka@163.com。;通信作者:周思柱(1963—),教授,博士研究生导师。研究方向:石油机械结构强度与动态特性测试。E-mail:zhousz@yangtze.ed.cn。
