卵巢癌、成熟型畸胎瘤与正常血液样本中挥发性组分的研究

采用顶空固相微萃取(HS-SPME)与气相色谱-质谱(GC-MS)联用技术,对12例卵巢癌、17例成熟型畸胎瘤与16例正常血液样本的挥发性组分进行研究,对影响提取效果的实验因素进行了优化.在最优条件下共检出28种挥发性组分,以各组分峰面积为变量,用SIMCA-P软件进行偏最小二乘判别分析(PLS-DA),3组样本被明显区分.同时,依据PLS-DA载荷图得到8种具有显著性差异的标志物,其中己醛、蘑菇醇的变化与其在肝癌、肺癌患者血液中的变化一致,可作为诊断卵巢癌和成熟型畸胎瘤的挥发性生物标志物.     

MD simulation for nanocrystals

Molecular dynamic (MD) provided anab initio simulation for nano-scale mechanical behavior of materials, provided that the inter-atomic potential is accurately prescribed. MD is particularly suitable in simulating the formation, the deformation, and the evolution of nanocrystals under a fast strain rate. To tackle large scale system and nano-seconds time duration, parallel algorithm is desired. The present paper reviews the recent advances in MD simulation for nanocrystals rithm is desired. The present paper reviews the recent advances in MD simulation for nanocrstals with attention focused on the applications toward nanomechanics. The examined issues are: formation of nanocrystalline metals, nanoindentation on nancorystals, fast deformation of nanocrystals, orderdisorder transition, and nano-particle impact. The project supported by the National Natural Science Foundation of China (101212202 and 90205023)     

裂尖超钝化:实验、理论与数值模拟

本文报道了在改性聚丙烯裂尖平面应变段发生超钝化的实验发现。利用环向冷拉模型,可说明裂尖超钝化的形成取决于冷拉传播速率与加载率之比。裂尖超钝化可使材料韧性,尤其是冲击韧性的改善,达到一个新的水平。本文在超弹性-粘塑性各向异性损伤的有限变形本构模型下进行了详尽的数值计算。模拟结果成功地再现了裂尖超钝化的基本特征。     

利用线弹簧模型计算含表面裂纹的板壳结构的复合型应力强度因子

本文将线弹簧模型推广应用于复合型应力强度因子的计算。将复合型线弹簧单元与ADINA程序相联接,便得到分析复杂结构物(特别是诸如管节点一类的空间相贯体结构)中所含表面裂纹的复合型应力强度因子程序。算例表明:该方法具有较高的计算效率而又能满足工程分析的精度要求。     

结晶型高分子材料的平面取向演化与塑性响应

建立了描述结晶型高分子材料的平面取向演化及其塑性响应的解析框架。文中针对材料中分子链不可伸长的特点，修正了Ｔａｙｌｏｒ假定。引入连续的取向分布函数，并将它展开成不可约的张量形式表示，通过建立并求解展开系数的演化方程，最终获得问题的解。文中模拟了单轴拉伸和简单剪切时链轴朝拉伸方向偏转的过程，描述了应力的上扬硬化现象．     

能量法求解冲击问题的适用条件

<正> 材料力学教材中,对于冲击问题,大多是采用能量法来进行近似分析和计算.文献[1]中将冲击问题按波动问题来处理,使得冲击应力的理论值与实测值比较吻合。该文还通过两个实例,比较了用能量法算出的冲击应力和实测值之间的差异、例1和例2中 k′=0.3,0.1能量法算得的冲击应力和实测值相差较大,     

基于非J控制扩展的安全评定方法

本文研究了非J控制扩展条件下,材料符合塑性增量理论的断裂参量(?)_1积分;并由高玉臣和黄克智的解和(?)_1积分建立了断裂评定参量裂纹尖端张开角CTOA的理论表达式,在详细弹塑性有限元计算和大型CT试件的裂纹扩展过程实测的基础上,建立了非J控制扩展条件下的弹朔性断裂的安全评定方法。     

Simulation for surface self-nanocrystallization under shot peening

Driven by high frequency and multi-directional shot peens, dislocations of various orientations proliferate into the metal, and accumulate in high density in the surface layer of a shallow depth. Migration, generation and annihilation of dislocations dictate the evolution of mobile dislocation density. Simulation for the experiment of pure iron under repeated shot peen flux of 800 times per square millimeter is carried out, and a dislocation density up to 2.17×10¹¹ mm⁻² is achieved. Dislocations of such density in the surface layer are shown to be capable of forming nano-grains whose size is about 10 nm. Molecular dynamics simulation verifies the formation of nano-grained metals at such dislocation density level. The dislocations are first regrouped to form subcrystallites, then combined to form stable nanocrystallized grains after sufficiently long time of relaxation. The project supported by the National Natural Science Foundation of China (10121202)     

纤维复合材料后微屈曲的理论和实验

后微屈曲是单向纤维复合材料和层状复合材料压缩破坏过程的基本特征。结合Kevlar 49增强648/BF₃·400(脆性环氧)和EP(韧性环氧)基复合材料对后微屈曲的折带扩展进行理论分析和实验研究。理论预测与实验结果达到定性、定量符合,实验展现出扩展折带模式的微屈曲特征。     

弹性体共混改性聚丙烯的增韧机理

阐述了以聚丙烯（ＰＰ）／高密度聚乙烯（ＨＤＰＥ）为复合基体，苯乙烯－丁二烯－苯乙烯（ＳＢＳ）为增韧剂经三元共混所得的性能优异的一类新材料．从三个层次（形貌结构转变、宏观力学响应和裂尖过程区演化）系统地探讨了其增韧机理．结果表明由形貌结构控制和对早期体膨胀变形抑制可造成裂尖平面应变区的超钝化从而达到增韧．