NiTi SMA电沉积电流密度对耐蚀性的影响

系统研究了在不同电流密度下阴极电沉积法制得的Ti-O膜改性膜的表面形貌及耐腐蚀性能。得出在电流密度5 mA/cm2下阴极沉积得到的Ti-O膜非常均匀致密,有较小的裂纹;但电流密度为20mA/cm2下沉积的试样有较好的热力学稳定性和较优异的耐腐蚀性能。

NiTi SMA/PZT复合材料制备工艺

采用溶胶-凝胶法在经不同表面预处理的NiTi形状记忆合金(NiTi SMA)基体上复合锆钛酸铅(PZT)铁电陶瓷薄膜,利用X射线衍射仪和扫描电镜研究了烧结温度对复合材料的陶瓷层及NiTi SMA基体相组成的影响及NiTi SMA基体表面预处理形貌对其与陶瓷层之间复合结构的影响。结果表明:采用650℃烧结、缓慢冷却得到的陶瓷薄膜层具有单一钙钛矿PZT相结构;表面经过腐蚀预处理的NiTi SMA基体与陶瓷层结合良好。

显微硬度计测试NiTi SMA薄膜与PZT基体结合力的分析

通过磁控溅射在锆钛酸铅陶瓷(PZT)基体表面沉积一定面积的NiTi SMA薄膜,用显微硬度测试分析薄膜与PZT基体间的结合力.结果表明:随沉积膜宽度增加,NiTi SMA薄膜与PZT基体的结合力减小;膜宽L<3mm的NiTi SMA薄膜,其膜基结合力最高达351N/mm^2,比膜宽L≥3mm的结合力高2倍多.

PZT基体沉积条形分布NiTiSMA薄膜复合材料的介电性能

使用模具并采用磁控溅射法在铁电陶瓷PZT基体上沉积具有条形分布结构的Ni Ti SMA薄膜。显微组织结构观察发现,以条形分布结构方式沉积的Ni Ti SMA薄膜晶化处理后具有等轴晶结构。比较所制备PZT/Ni-Ti SMA薄膜复合材料与纯PZT的介电常数及介电损耗发现,两者的介电损耗水平接近;复合材料的介电常数比纯PZT的提高约18%。Ni Ti SMA的沉积使基体中靠近薄膜区域的Zr/Ti物质的量比恰好落在准同型相界区内,致使所制备复合材料的介电性能优于纯PZT。

NiTi基形状记忆合金驱动器的研究进展

NiTi基形状记忆合金(SMA)驱动器存在驱动频率低、能耗高及控制精度不高的问题。综述了NiTi基SMA驱动器、一维宏观本构模型的研究进展,并提出了驱动器研究优化的方向,即异质多段型SMA驱动器的结构和制备工艺研究、传热状态的多参数宏观模型仿真及控制技术研究。

An Investigation of the Effects of Thermal Interference between Adjacent Nitinol Spring Actuators in a Tactile Display

Over the years, there has been increased research interest in the application of Nitinol as an actuator, due to its shape memory behaviour, simplicity, high power-to-weight ratio, compactness, and extreme high fatigue resistance to cyclic motion, and noiseless operation. Nitinol has found application in tactile displays which reproduce tactile parameters such as texture and shape, depending on the application. This paper presents the effects of thermal interference between adjacent Nitinol spring actuators in a tactile display. The tactile display is made of a 3 by 3 pin array whose spatial resolution was varied from 4 mm to 6 mm in steps of 1 mm while a current of 1.5 A was used to actuate 8 of the springs, and the centre spring was left unactivated to observe the thermal effects on it due to the heat gradient formed. A Finite Element (FE) model was developed using COMSOL Multiphysics and the results were further verified through experimentation. In both cases, there was visible thermal interference between actuators. The increase in spatial resolution saw a decrease in thermal interference by 12.7%. Using a fan to introduce forced convection, reduced the thermal interference in the simulation by 20% and during experimentation by 11%. The results of this research indicate a spatial resolution of 6 mm reduced the thermal inference to a negligible rate. However, thermal interference could not be eliminated with these two methods.

多孔NiTi形状记忆合金的制备工艺

以NH_4HCO_3为造孔剂,利用元素粉末混合烧结法制备了多孔NiTi形状记忆合金。研究了压制压力、烧结温度和烧结时间对多孔NiTi合金孔结构的影响,并分析了其物相组成。结果表明:随压制压力的增加,平均孔径和孔隙率逐渐减小;随烧结温度提高,多孔NiTi合金的平均孔径减小、孔隙率先增加后减少,孔隙分布趋于均匀;随烧结时间延长,多孔NiTi合金的平均孔径及孔隙率先增加后减少。在造孔剂添加量50%,压制压力250 MPa,烧结温度1000℃,烧结时间6 h条件下可制备出孔结构均匀(平均孔径为314μm,孔隙率56.3%)的多孔NiTi合金,其基体相为B2(NiTi)相。

NiTi合金表面电化学氧化制备TiO2膜

采用恒电流阳极氧化法在NiTi形状记忆合金(SMA)表面制备完整致密且耐腐蚀的TiO2膜。通过对NiTi SMA和纯Ti在稀HCl中的动电位阳极极化曲线的分析,得到了选择性脱Ni阳极氧化电流密度工艺参数。试验采用稀HCl体系,以该工艺参数进行阳极氧化处理5min,在NiTi SMA表面制备出了完整致密的TiO2膜,并进行了其表面的SEM、XRD、XPS分析和NiTi SMA表面处理前后在模拟唾液fusayama中的对比腐蚀试验测试。结果表明:经阳极氧化处理的NiTi SMA表面形成了十几纳米厚的TiO2膜,且其耐蚀性有明显的提高。

介入治疗镍钛SMA支架研究进展

镍钛形状记忆合金具有形状记忆效应和超弹性,在介入治疗上得到广泛的运用。本文对介入治疗镍钛形状记忆合金支架表面改性、临床应用方面的研究进展作了综合论述。

A macroscopic multi-mechanism based constitutive model for the thermo-mechanical cyclic degeneration of shape memory effect of NiTi shape memory alloy

A macroscopic based multi-mechanism constitutive model is constructed in the framework of irreversible thermodynamics to describe the degeneration of shape memory effect occurring in the thermo-mechanical cyclic deformation of NiTi shape memory alloys (SMAs). Three phases, austenite A, twinned martensite and detwinned martensite , as well as the phase transitions occurring between each pair of phases (, , , , and are considered in the proposed model. Meanwhile, two kinds of inelastic deformation mechanisms, martensite transformation-induced plasticity and reorientation-induced plasticity, are used to explain the degeneration of shape memory effects of NiTi SMAs. The evolution equations of internal variables are proposed by attributing the degeneration of shape memory effect to the interaction between the three phases (A, , and and plastic deformation. Finally, the capability of the proposed model is verified by comparing the predictions with the experimental results of NiTi SMAs. It is shown that the degeneration of shape memory effect and its dependence on the loading level can be reasonably described by the proposed model.

磁控溅射法制备PZT基SMA/PZT异质复合材料

采用直流磁控溅射法在PZT基体上溅射沉积NiTi SMA薄膜,而制备出PZT基NiTi SMA/PZT异质复合材料。研究了溅射工艺参数与晶化温度对NiTi SMA薄膜相组成及SMA/PZT异质复合材料膜/基间结合状态的影响规律。结果表明,为保障NiTi SMA薄膜的晶体颗粒均匀、结构致密,膜/基间成分交换范围小及结合紧密,制备NiTi SMA/PZT异质复合材料的适宜工艺为:于基体温度150℃、氩气压强0.7Pa条件下溅射沉积NiTi SMA薄膜,再经600℃二次晶化处理。显微观察发现,NiTi SMA薄膜与PZT基体之间以化学方式,而非物理方式结合。

Hank's溶液中NiTi形状记忆合金与人骨微动摩擦系数的研究(英文)

在Hank's 溶液中, 采用 SRV 型摩擦磨损试验机对 NiTi 形状记忆合金与人骨配磨的微动摩擦系数进行研究。结果表明:Hank's 溶液的润滑作用使合金与骨之间的摩擦系数变小,但该介质的腐蚀作用会使摩擦系数增大。在 4 种介质中,随着振幅的增加,摩擦系数逐渐趋于稳定。在弱酸、弱碱性 Hank's 溶液中,摩擦系数大于中性条件下的值。由于介质的存在会对磨屑的形成和演化起到抑制作用,相对于空气介质,NiTi 形状记忆合金在不同 pH 值 Hank's 溶液中磨痕的最大深度以及磨斑体积、宽度、长度会有不同程度的减少。

多孔NiTi形状记忆合金的力学性能的实验研究

本文介绍了NiTi形状记忆合金的应用前景,利用MTS材料试验机研究经过热处理的多孔NiTi合金在压缩时的应力—应变曲线。结果表明,在一定的热处理后,多孔NiTi合金具有形状记忆效应,同样利用差热分析仪也证明了这一特性。因此,这种合金在一定程度上满足生物医用材料的医学使用条件。

NiTi形状记忆合金环向预应力混凝土结构强化现象的研究

采用NYL-80型压力试验机进行抗压试验,用YJ-26型静态电阻应变仪测量各级荷载下对应的横竖向应变,同时观察和记录试件的破坏现象,研究了NiTi形状记忆合金环向预应力混凝土结构的强化现象。结果表明SMA环向预应力混凝土柱与同等条件的普通混凝土柱相比,其极限荷载和抗裂性能都有较大的提高。

Porous NiTi shape memory alloys prepared by thermal explosion method

Thermal explosion method was used to prepare porous NiTi shape memory alloy. The process of thermal explosion was investigated. The effect of process parameters on thermal explosion reaction and properties of products was analyzed. The results showed heating rate, green density, particle size of initial powder strongly affected combustion temperature, porosity and compressive strength of final products. The mechanism of thermal explosion and the microstructure of reacted products were studied by XRD and SEM photographs. The results showed the final products mainly comprised of NiTi, Ti2Ni and TiNi3 phases and their strength decreased with the increase of porosity.

NiTi形状记忆合金表面化学法制备生物活性层工艺的优化

采用正交试验方法对影响仿生溶液法制备生物活性层特性的工艺参数进行了优化设计。优化后的工艺条件为 :酸处理 ,在 6 0℃的 30 %HNO3溶液中处理 2 4h ;碱处理 ,在 90℃的 5mol/LNaOH溶液中浸泡 7h。利用优化后的工艺在NiTi合金表面制备了均匀。

材料状态对NiTi形状记忆合金相变行为的影响

用金相显微镜观察了冷加工和固溶状态的显微组织形貌,用示差热量扫描法(DSC)系统研究了冷加工、固溶和时效处理对近等原子比的NiTi形状记忆合金的相变温度的影响。试验结果表明,冷加工态NiTi合金组织形态呈纤维状,固溶处理后组织形态呈等轴状。冷加工带来的大量变形缺陷抑制了热弹性马氏体的相变;冷加工态NiTi合金直接进行时效发生了P→M相变;经固溶处理后再进行时效则发生了P→R→M相变。NiTi合金在不同的热处理条件下发生了不同类型的热弹性马氏体相变。分析认为,应力、位错密度及析出相对NiTi合金热弹性马氏体的相变行为有重要的影响。

多孔NiTi合金工艺参数与孔隙关系的神经网络研究

为了减少实验量,降低成本,利用人工神经网络的原理,选取温度、颗粒尺寸、压坯密度为输入量,产物的孔隙度为输出量,建立了反映自蔓延高温合成反应参数与产物孔隙特性内在关系的模型.研究表明,该模型可以对选定工艺条件下产物的孔隙度进行良好的预测,预测结果在合理的误差范围内.说明建立的反应参数与孔隙特性的关系模型是可靠的,可以通过此模型优化反应参数.

BP模型在预测多孔NiTi合金孔隙度和屈服强度上的应用

基于BP神经网络的原理,建立了热爆法合成多孔NiTi形状记忆合金孔隙度和压缩屈服强度的神经网络模型。该模型拟合了温度、Ti粉颗粒尺寸和生坯密度对热爆产物孔隙度和压缩屈服强度的影响。当温度、Ti粉颗粒尺寸和生坯密度发生变化时,对反应产物的性能进行了预测,其预测值和实验值非常吻合。因此该模型可用于多孔NiTi形状记忆合金的性能控制,通过对性能的合理调控,使其与所替换的生物组织更加匹配,同时提高研究效率,降低成本。

NiTi形状记忆合金表面辉光离子氮化层的结构与性能

为改善NiTi形状记忆合金表面的生物相容性,采用辉光离子氮化的方法在其表面制备了氮化层,利用多种手段对其表面氮化层的显微组织结构以及表面性能进行了研究。结果表明:经过900℃辉光离子氮化后,不仅在NiTi形状记忆合金表面形成了致密、均匀的TiN层,而且在基体与TiN层之间还形成了均匀的Ti2Ni过渡层,且随着氮化时间的延长,膜层及过渡层的厚度都随之增加。生成的氮化层大大提高了NiTi形状记忆合金的耐腐蚀性能。