原位生成NbC增强YCF102熔覆层热力学与耐磨性研究

熔覆层性能难以满足特定的工艺要求，已成为限制激光熔覆发展的关键因素之一.鉴于此，在45号钢基体上制备出原位生成NbC增强YCF102熔覆层，并进行了热力学分析.通过XRD，SEM和EDS对其微观形貌及组成成分进行了分析，对其显微硬度及耐磨性进行了研究.结果表明:激光功率的改变对激光熔覆过程中原位反应的反应程度有显著影响，过大或者过小的激光功率均会对原位反应的发生起到抑制作用;YCF102熔覆层中原位生成的NbC颗粒的主要形态为四边形和花瓣形;当激光功率为525W时，原位生成NbC增强YCF102熔覆层具有较高的显微硬度及良好的耐磨性.     

共价有机骨架/碳纳米管复合材料中锂离子吸附与传输特性的分子模拟

利用分子模拟方法对共价有机骨架 (covalent organic framework, COF)/碳纳米管(carbon nanotube, CNT) 复合材料 COF@CNT 中锂离子 (Li$^{+})$ 的吸附与传输特性开展研究, 明确了 Li$^{+}$ 的吸附位点与吸附顺序, 得到了相应的吸附能, 并观察 COF@CNT 的表观形貌变化. 当达到饱和吸附状态时, COF@CNT 的体积变化率仅为 0.25, 平均电压保持在 2.00 V 以上, 而理论容量则高达 1 402.47 mAh/g. 此外, Li$^{+}$ 在 COF@CNT 内部的电导率大于其在单纯 CNT 中电导率的实测值. 模拟结果可为此类体系的实际应用提供理论基础.     

基于共价有机框架的仿生光动力学治疗试剂的构建

共价有机框架（COF）是一类新兴的多孔有机聚合物，因其具有较大的比表面积、有序的孔道结构以及良好的生物相容性，已成为具有潜力的纳米药物载体.制备了基于COF纳米颗粒的仿生纳米复合物，负载光敏剂孟加拉玫瑰红（RB），并包裹癌细胞膜（CMV）对该复合物进行仿生修饰.结果表明：制备的COF/RB@CMV纳米复合物具有良好的生物兼容性，能够被肿瘤细胞有效摄取，并在光照激活条件下产生对细胞具有高毒性的活性氧化物（ROS），进而起到了杀伤肿瘤细胞的作用.提出了一种新的基于COF的仿生纳米平台用作光动力学治疗（PDT）试剂.     

高盐、高浓度有机废水蒸发特性实验

 搭建废水动态蒸发实验装置，对精细化工行业常见的蒸氨废水、颜料生产废水开展蒸发分离实验研究以获得废水蒸发特性，为实际蒸发系统设计提供基础数据支持。结果表明：废水的沸点升高随浓缩倍数的增加而逐渐上升，来自不同工艺段的蒸氨废水、颜料生产废水由于浓度差别，在相同的浓缩倍数下沸点升高略有不同；在蒸发过程中，颜料生产废水蒸发冷凝液的COD随着蒸发的进行逐渐降低；不同种类废水蒸发冷凝液的TDS与pH值变化规律大致相同，受原液中易挥发物质及夹带液滴的影响较大，随着浓缩倍数的增加先减小后趋于恒定。     

Superior corrosion resistance-dependent laser energy density in(CoCrFeNi)95Nb5 high entropy alloy coating fabricated by laser cladding

(CoCrFeNi)95Nb5 high entropy alloy(HEA)coatings were successfully fabricated on a substrate of Q235 steel by laser cladding technology.These(CoCrFeNi)95Nb5 HEA coatings possess excellent properties,particularly corrosion resistance,which is clearly superior to that of some typical bulk HEA and common engineering alloys.In order to obtain appropriate laser cladding preparation process parameters,the effects of laser energy density on the microstructure,microhardness,and corrosion resistance of(CoCrFeNi)95Nb5 HEA coating were closely studied.Results showed that as the laser energy density increases,precipitation of the Laves phase in(CoCrFeNi)95Nb5 HEA coating gradually decreases,and diffusion of the Fe element in the substrate intensifies,affecting the integrity of the(CoCrFeNi)95Nb5 HEA.This decreases the microhardness of(CoCrFeNi)95Nb5 HEA coatings.Moreover,the relative content of Cr2O3,Cr(OH)3,and Nb2O5 in the surface passive film of the coating decreases with increasing energy density,causing corrosion resistance to decrease.This study demonstrates the controllability of a high-performance HEA coating using laser cladding technology,which has significance for the laser cladding preparation of other CoCrFeNi-system HEA coatings.     

奥氏体不锈钢离子渗N组织及性能

采用辉光离子渗N技术对奥氏体不锈钢球阀进行表面氮化处理,改变其表面结构,提高表面耐磨性.选取三组离子渗N的温度,分别为400、440、480 ℃,渗N时间设置为12 h.采用扫描电镜、光学显微镜、X射线衍射仪、维氏显微硬度计和材料表面综合测试仪对渗N改性层的表面形貌、截面形貌、显微硬度和耐磨性进行测试.结果表明:离子渗N技术可以大幅提高奥氏体不锈钢的硬度和耐磨性.渗N温度为400 ℃时,渗N改性层最薄,耐磨性最差,480 ℃时渗N改性层最厚、耐磨性最好.     

超临界CO2气溶胶溶剂萃取法制备尤特奇S100纳米颗粒

采用超临界CO2气溶胶溶剂萃取法(ASES)制备了尤特奇S100(Eudragit S100)纳米粒,考察了有机溶剂的选择、压力、温度、溶液浓度及流速等主要工艺参数对Eudragit S100纳米粒形貌及粒径大小的影响,并采用扫描电镜、傅立叶红外光谱分析对结果进行了表征。结果表明,在以丙酮作为溶剂、压力为16 MPa、温度为45℃、溶液浓度为1 mg/m L的工艺条件下,可制备出有机溶剂残留少、分布均匀、平均粒径为30~60 nm的Eudragit S100纳米颗粒。纳米粒子的平均粒径随温度、压力的升高而减小,随溶液浓度的减小而减小。     

公安院校《有机物检验技术》课程研发探究

目前公安院校刑事技术相关课程体系还存在诸多问题,课程科目重合、基础知识单薄、教学内容滞后,远远不能满足一线公安的实战要求.根据教学实践,针对公安院校刑事技术专业学生,进行了《有机物检验技术》课程的研发,精选教学内容,保持其系统性、实战性和前沿性.有效地增强警校学生的基础知识,培养其动手能力,提升其办案水平,保证了教学质量和学科的健康发展.     

Microstructure,mechanical properties and wear resistance of an Al–Mg–Si alloy produced by equal channel angular pressing

Microstructure, mechanical properties and wear resistance in an ultrafine-grained Al–Mg–Si alloy fabricated utilizing a combination of equal channel angular pressing (ECAP) and dynamic aging were investigated in this paper. The results indicated that the grain size of the ECAP alloy was significantly refined, i.e., to ~239 nm after three ECAP passes. Meanwhile, the yield and tensile strength of the ECAPed material reached 340 MPa and 445 MPa, respectively, while maintaining a significant uniform elongation of 14%. Wear resistance results demonstrated that the wear rate, wear depth and width of the ECAPed material decreased in comparison with the solution-treated (SST) and peak-aged (T6) conditions under a load range of 5–25 N. The adhesive wear that occurs in the undeformed specimens at 10 N does not appear in the ECAPed specimen at the same load, indicating that the ECAPed specimen delay the appearance of more serious wear mechanisms under certain loads. The cooperative interaction of high density nano-scale β" precipitates and dislocations resulted in a combination of super-high strength and good work hardening ability which suppressed the extension of cracks between the friction layer and the plastic deformation zone. As a consequence, the combination of ECAP and dynamic aging brings a significant improvement for antifriction performance of the 6061 aluminum alloy.