静电纺丝素/胶原/聚合物复合纤维的制备及其力学性能的研究

目前,将天然高分子蛋白和聚合物共混利用静电纺丝法制作各种组织工程支架材料倍受关注。基于这种研究背景,在本文中利用静电纺丝技术,制备了丝素(SF)/胶原(COL)/聚左旋乳酸(PLLA)和SF/COL/聚左旋乳酸-己内酯(PLCL)两种共混复合纤维膜,通过扫描电镜(SEM)对纤维形态结构分析,发现复合纤维形貌良好,直径较为均一。同时改变纺丝液中高分子蛋白的比例,复合纤维的直径也随之减小。此外,对复合纤维进行了力学性能测试,发现随着聚合物含量的增加,复合纤维膜的力学性能得以改善,SF/COL/PLCL组复合纤维的拉伸性能明显优于SF/COL/PLLA组。     

纳米SiO_2/聚甲基丙烯酸甲酯复合材料的制备和力学性能

通过悬浮聚合的方法,用不同表面结构的纳米SiO2对聚甲基丙烯酸甲酯(PMMA)进行原位改性,得到纳米SiO2/聚甲基丙烯酸甲酯复合材料;利用红外光谱仪分析了复合材料的界面化学结构,利用热分析仪测定了其热稳定性,并采用冲击试验机测定了其力学性能.结果表明,不同表面结构的纳米SiO2均参与甲基丙烯酸甲酯的聚合反应,与PMMA基体之间形成化学键;而表面修饰有双键的纳米SiO2更易与甲基丙烯酸甲酯聚合,能更有效地提高PMMA的抗冲击性能.     

羟基磷灰石/聚乙烯醇/壳聚糖水凝胶在模拟体液中的力学性能

从仿生学角度出发,将自制的人工角膜支架材料羟基磷灰石/聚乙烯醇/壳聚糖(n-HA/PVA/CS)浸泡在模拟体液中,对材料的含水率及力学性能进行了测试,并利用扫描电镜、X射线衍射仪、电感耦合等离子体原子发射光谱仪及热重分析仪研究了材料在模拟体液中的形貌、晶体结构、元素组成及热稳定性.结果表明,在模拟体液中,n-HA/PVA/CS复合水凝胶的含水率为80%~86%,具有较高的拉伸强度,能承受正常眼压,且热稳定性较好.在浸泡后期,n-HA/CS/PVA复合材料对Ca2+的吸附和释放达到动态平衡;而其表面含有微量的纳米羟基磷灰石沉积,有利于纤维细胞的长入.     

BaO∙4B2O3∙5H2O纳米材料的制备及其对聚丙烯阻燃性能的热分解动力学方法评价

Borate is considered one of the most important additives for improving the fire-resistance of combustible polymers because of its smoke suppression, low toxicity, and good thermal stability. However, the size of prepared borate is usually in the micrometer range, which makes it difficult to disperse in a polymer matrix, thus hindering its use as fire-retardant material. The preparation and application of borate nanomaterial as flame retardant is considered an effective method. However, the preparation of barium borate nanomaterials as flame retardant has not been reported. In this paper, nanosheets and nanoribbons with different sizes for a new barium borate BaO·4B₂O₃·5H₂O are prepared by hydrothermal method, and characterized by X-ray diffraction (XRD), Fourier transform infrared spectrum (FT-IR), thermogravimetric analysis-differential scanning calorimetry (TG-DSC), and scanning electron microscope (SEM). The flame-retardant properties of polypropylene (PP)/BaO·4B₂O₃·5H₂O composites are investigated by thermogravimetric analysis (TG), differential scanning calorimetry (DSC) thermal analysis methods and limited oxygen index (LOI) method. Considering the near TG mass losses and the near LOI values for PP with 10% prepared BaO·4B₂O₃·5H₂O nanosheet and nanoribbon, their flame-retardant properties need to be further evaluated by non-isothermal decomposition kinetic method. The apparent activation energy for this decomposition reaction was obtained from the slope by plotting ln(β/T_p²) against 1/T_p according to Kissinger's model. With the reduction of TG mass loss, increased heat absorption in DSC under N₂ atmosphere, increased apparent activation energy E_a for the thermal decomposition of PP/BaO·4B₂O₃·5H₂O composite as well as increased LOI value, the flame-retardant performance of prepared BaO·4B₂O₃·5H₂O samples with PP gradually improved from bulk to nanoribbon to nanosheet. This can be attributed to the decrease in the size of BaO·4B₂O₃·5H₂O samples because the smaller sample size leads to improved dispersion and increased contact area with the polymer. The flame-retardant mechanism is discussed by analyzing the after-flame chars of the PP/BaO·4B₂O₃·5H₂O composite in SEM images, which show that the char layer is more compact and continuous for the PP/BaO·4B₂O₃·5H₂O nanosheet composite. The influence of loading BaO·4B₂O₃·5H₂O nanomaterials on the mechanical properties of PP is also tested using a universal material testing machine, in which the PP/BaO·4B₂O₃·5H₂O nanosheet composite has higher tensile strength. The PP/BaO·4B₂O₃·5H₂O nanosheet composite has the best flame-retardant and mechanical properties, which is promising to be developed for the application as flame-retardant material.     

激光选区熔化Ti-6Al-4V合金的动态力学性能及其本构关系

为了开展激光选区熔化（SLM）增材制造钛合金的动态力学性能研究,分别采用热模拟材料试验机、分离式霍普金森压杆装置对激光选区熔化钛合金在不同温度下进行了准静态和动态压缩实验,并基于实验结果拟合Johnson-Cook本构模型,同时对钛合金在高温、高应变率下的力学行为进行了有限元模拟。结果表明,相对于铸造或锻造钛合金,激光选区熔化钛合金具有更细小、均匀的组织,使其屈服强度有明显的提升,且表现出明显的应变率强化效应和热软化效应。有限元模拟结果与实验有着较高的重合度,进一步验证了本构参数的有效性,为扩大激光选区熔化技术及其产品的应用提供了理论基础。     

高性能插层复合型三元乙丙橡胶密封材料研究

橡胶密封材料作为工程系统常用的一种密封材料，其气密性、耐老化性、力学性能等的优劣直接影响其应用效果，并间接影响工程系统寿命。纳米复合技术的诞生与发展为橡胶科学以及相关新材料研发提供了全新的思路和途径，而利用纳米层状无机物如蒙脱土、石墨等与插层复合技术制备插层型聚合物纳米复合材料是近年来的研究热点之一。     

葵花杆填充板静曲力学性能研究

本文运用复合材料刚度合理分配法，在理论分析和实验的基础上给出了新的计算公式，揭示了葵花杆填充板的力学性能，为广泛使用该材料提供了理论依据．     

N2分压对ZrN/WN纳米多层膜缺陷性质与力学性能的影响

利用射频磁控溅射系统在不同N₂分压的条件下，制备了一系列ZrN/WN纳米多层膜.借助慢正电子湮没技术分析了样品的缺陷性质，采用纳米压痕仪研究了多层膜的力学性能.结果发现：N₂分压为0.4Pa的多层膜具有最小的空位型缺陷浓度，其中心层和膜基结合层的平均S参数分别为0.4402和0.4641，而较低或较高的N₂分压都可能导致空位型缺陷浓度的增加.随着空位型缺陷浓度的减小，多层膜的硬度和临界载荷增大.对于空位型缺陷浓度最小的多层膜，其硬度和临界载荷达到最大值，分别为34.8GPa和100mN，说明较低的缺陷浓度有利于提高多层膜的力学性能. 关键词： ZrN/WN纳米多层膜 缺陷性质 力学性能 慢正电子湮没     

乙炔气体流量对纳米TiC类金刚石复合膜的化学结构及力学性能影响

采用离子注入与反应磁控溅射相结合的方法在钛合金及硅片基体表面上制备了纳米TiC类金刚石(DLC)复合膜.通过纳米压痕技术检测了薄膜的纳米硬度，显微划痕试验评估了薄膜的结合力.通过X射线光电子能谱及X射线衍射表征了薄膜的化学结构.结果表明，通过改变C₂H₂气体流量，可以达到控制薄膜中钛原子含量的目的，合适的C₂H₂气体流量可以在DLC膜中形成较多的纳米TiC晶粒，形成DLC包覆TiC晶粒的复合结构，使DLC膜力学性能得到明显提高.另外，划痕试验表明掺钛、先注入后沉积工艺都使薄膜的结合力得到了较大提高. 关键词： 纳米TiC类金刚石复合膜 类金刚石膜 力学性能