We prostheses that omit many functions of the lubricant and the joint capsule. The new structure is composed of three components: lubricant, artificial joint and artificial joint capsule. The lubricant sealed in the capsule can not only reduce the wear of the artificial joint but also prevents the wear particles leaking into the body. So unexpected reactions between the wear particles and body can be avoided completely. A three-dimensional (3-D) finite element analysis (FEA) model was created for a bionic knee joint with capsule. The stresses and their distribution in the artificial capsule were simulated with different thickness, loadings, and flexion angles. The results show that the maximum stress occurs in the area between the artificial joint and the capsule. The effects of capsule thickness and the angles of flexion on stress are discussed in detail.

通过摩擦学系统分析，指出了目前人工关节无润滑系统的结构缺陷，为解决此缺陷提出一种包括生物浓液、人工关节摩擦配副和仿生关节囊的新型人工仿生关节学系统结构，并对系统设计以及其改善现有人工关节系统润滑的潜在优越进行了讨论，采用销-盘摩擦试验机对影响人工关节仿生润滑系统摩擦学性能的滑液进行了模拟试验前的快事速初步评价，结果表明，滑液可显著改善人工关节副的摩擦学特性，但其效果同系统条件其结构无素有关，在研记生滑液和设计其摩擦学特性模拟试验方法时，必须结合这些影响因素进行设计和试验。

Flip chip joining technology using anisotropically conductive films (ACFs) has become an attractive technique for electronic packaging. However, several factors have hindered the wide spread use of this technology. Along with the reliability issue, these factors also include the low availability and high cost of the bumped wafers. This paper introduces the feasibilities of using unbumped die with respect to ACF joints for flip-chip-on-flex (FCOF) assemblies. The unbumped dies contain only bare aluminum pads. Untill now the performance of ACF to Al metallization is a controversial issue from the published reports. In this study, two different test vehicles were used to study contact resistance and adhesion performance. Reliability of contact resistance for ACF joints with the unbumped dies was investigated in terms of varying the thickness of the Al pads. Adhesion performance of ACF to the Al metallization was compared with the adhesion performance of ACF to a glass substrate using the same ACF and the same bonding parameters. FCOF assemblies containing dies with thinner aluminum pads showed lower initial contact resistance and a lower rate of increment during accelerated aging tests. Three factors were considered as the potential causes for the above results: (1) lower concentration of aluminum oxide on the thin Al pad, (2) larger contact area per deformed particle with Au/Ni/Cu electrode for the interconnection of thin Al pad and (3) lower concentration of the defects in the thin Al pad. Contact resistance was found to increase during accelerated testing because of aluminum oxide formation on top of the pads. Contrary to the usual expectation, adhesion strength of ACF with the Al metallization was increased during 60C/95% RH testing. After 500 h of such moisture-soak testing, the adhesion strength becomes 3 times the initial value. The change in chemical state on the aluminum surface is considered to be responsible for higher adhesion strength. It is proposed that oxidation of Al surface due to diffused moisture and the new chemical bond formation at the adhesives/aluminum interface are the key reasons for good adhesion reliability.

在分析电流变液（Eleoctrorheological fluids）测试技术特点的基础上，研制了一种基于库特（Couette）流动方式的电流变测试系统。对由上海大学研制的几种电流变液进行了性能测试，结果表明所建立的电流测试仪具有较好的重复性与可行性，可以准确、方便地获得与电流变效应有关的剪切应力、学习漏电流等方面的信息。