三维无溶剂含能Ag-MOF的制备、热分解动力学及爆炸性能

Solvent molecules can significantly reduce the heat of detonation and stability of energetic metal-organic framework (EMOF) materials, and the development of solvent-free EMOFs has become an effective strategy to prepare high-energy density materials. In this study, a solvent-free EMOF, [Ag₂(DTPZ)]_n (1) (N% = 32.58%), was synthesized by reacting a high-energy ligand, 2, 3-di(1H-tetrazol-5-yl)pyrazine (H₂DTPZ), with silver ions under hydrothermal conditions, and it was structurally characterized by elemental analysis, infrared spectroscopy, X-ray diffraction, and thermal analysis. In 1, the DTPZ²⁻ ligands that adopted a highly torsional configuration bridged the Ag⁺ ions in an octadentate coordination mode to form a three-dimensional framework (ρ = 2.812 g∙cm⁻³). The large steric effect and strong coordination ability of DTPZ²⁻ effectively prevented the solvent molecules from binding with the metal centers or occupying the voids of 1. Moreover, the strong π-π stacking interactions [centroid-centroid distance = 0.34461(1) nm] between the tetrazole rings in different DTPZ²⁻ ligands provided a high thermal stability to the framework (T_e = 619.1 K, T_p = 658.7 K). Thermal analysis showed that a one-step rapid weight loss with intense heat release primarily occurred during the decomposition of 1, suggesting potential energetic characteristics. Non-isothermal thermokinetic analyses (based on the Kissinger and Ozawa-Doyle methods) were performed using differential scanning calorimetry to obtain the thermoanalysis kinetic parameters of the thermodecomposition of 1 (E_a = 272.1 kJ·mol⁻¹, E_o = 268.9 kJ·mol⁻¹; lgA =19.67 s⁻¹). The related thermodynamic parameters [enthalpy of activation (ΔH^≠ = 266.9 kJ·mol⁻¹), entropy of activation (ΔS^≠ = 125.4 J·mol⁻¹·K⁻¹), free energy of activation (ΔG^≠ = 188.3 kJ·mol⁻¹)], critical temperature of thermal explosion (T_b = 607.1 K), and self-accelerating decomposition temperature (T_SADT = 595.8 K) of the decomposition reaction were also calculated based on the decomposition peak temperature and extrapolated onset temperature when the heating rate approached zero. The results revealed that 1 featured good thermal safety, and its decomposition was a non-spontaneous entropy-driven process. The standard molar enthalpy for the formation of 1 was calculated to be (2165.99 ± 0.81) kJ·mol⁻¹ based on its constant volume combustion energy determined using a precise rotating oxygen bomb calorimeter. Detonation and safety performance tests revealed that 1 was insensitive to impact and friction, and its heat of detonation (10.15 kJ·g⁻¹) was higher than that of common ammonium nitrate explosives, such as octogen (HMX), hexogene (RDX), and 2, 4, 6-trinitrotoluene (TNT), indicating that 1 is a promising high-energy and insensitive material.     

动态配位空间的构筑与调控

“配位空间”(Coordination Space)是无机-有机杂化体系中的构筑基元通过配位键连接形成的具有特定结构和功能的空间。这一概念为基于配位键的框架体系的定向构筑与结构-性能调控提供了新的视角。作为典型的无机-有机杂化材料,金属-有机框架(Metal-Organic Framework,MOF)及金属有机笼(Metal-Organic Cage,MOC)等近年来受到广泛关注。这类材料的构筑与性能调控的核心可以认为是对其配位空间的结构设计与性能调控。具有刺激响应性的MOF可展现动态的配位空间,使其在吸附分离、传感、药物投递等方面具有重要的应用前景。本文将以动态金属有机框架的相关研究为基础简述动态配位空间研究的近期进展,包括其动态行为产生的结构基础、诱发因素及相关性能,归纳结构-性能的关系,为相关研究提供参考。     

干摩擦条件下天然橡胶／钢的磨损机理研究

采用FALEX试验机考察了20^#钢／天然橡胶在干摩擦条件下的磨损机理。用扫描电子显微镜分析了20^#钢和橡胶磨损表面形貌。用X射线光电子能谱仪分析了金属和橡胶磨损表面元素的含量及化学状态,用镜面全反射傅立叶红外光谱仪分析了橡胶磨损表面官能团的变化。结果表明,20^#钢／天然橡胶摩擦副发生了粘着磨损,其磨损机制为：金属及金属氧化物与天然橡胶分子自由基在摩擦表面发生反应;在亚表层以金属与大分子自由基的反应为主,主要产物为含有Fe-C的金属－聚合物;金属本身发生氧化,主要产物为Fe2O3,FeO和Fe3O4,而在亚表层的主要产物以FeO为主,表面膜可能通过化学键、静电作用力和分子间的范德华力与金属基体相结合。     

腐蚀磨损协同作用率的研究

提出了腐蚀与磨损“协同作用”的概念，并用于判断腐蚀与磨损协同作用的性质及大小和确定腐蚀磨损过程中材料损失的主要形式。介绍了协同作用率的测定方法，并以Ｇ１０５钢及化学镀Ｎｉ－Ｐ合金在５．０％ＮａＣｌ溶液中的腐蚀腐损作为研究对象，研究了载荷、滑动速度对腐蚀磨损协同作用的影响。结果表明：协同作用率随载荷增大而增大，随滑动速度增大而减小。     

Bessel框架及其摄动

本文进一步研究了Bessel框架的性质,给出其稳定性和摄动的几个有意义的结果。     

钨球对高硬度钢斜侵彻效应

为研究高硬度钢板抗不同着角钨球的侵彻性能及破坏模式,通过弹道枪进行了?8 mm、?11 mm钨合金球形破片以0°、20°、40°着角撞击厚度为6 mm、8 mm的高硬度钢板试验,得到了极限贯穿速度v₅₀;分析了钨球轴向径向变形及靶板失效模式与撞击速度的关系,发现高硬度钢板失效模式主要为压缩开坑破坏和沿厚度方向剪切破坏。采用有限元方法对试验进行了模拟,验证了数值模型及参数的合理性,并运用数值模拟方法研究了撞击着角对靶板吸能模式影响,结合试验数据,修正已有极限贯穿速度计算公式。结果表明:随侵彻着角增大,极限贯穿速度提高,且着角越大,极限贯穿速度增长越快;随着角增大,靶板吸能模式逐渐由压缩开坑向剪切冲塞过渡,且着角大于50°时,剪切冲塞耗能将超过压缩开坑耗能;修正后极限贯穿速度计算公式适用范围更广、精度更高,具有较好工程应用价值。     

稀土对耐候钢夹杂物的变质和耐蚀性能的影响

通过金相光学显微镜、扫描电镜及能谱仪,金相定量图象分析仪、非水电解分离夹杂 ICP方法分析固溶稀土含量、电化学腐蚀性能等分析测试手段研究了稀土在耐候钢中存在的形式、非金属夹杂物的形态、尺寸、分布及对耐蚀性能的影响.     

稀土基金属有机框架材料的制备及其对日落黄的电化学传感应用

室温下,以Er(NO3)3为金属源,均苯三甲酸为有机配体,通过一步共混法制备出形貌均一、尺寸约为70 nm的棒状稀土基金属有机框架材料(Er-BTC).Er-BTC的修饰不仅增加了碳糊电极的有效响应面积,而且表现出更低的电荷转移电阻.研究发现,日落黄在Er-BTC修饰碳糊电极表面的富集能力显著提升,从而导致其氧化信号得...     

ZIF-8/碳纳米管复合材料的制备及其用于4-氯苯酚电化学传感

以聚乙烯吡咯烷酮K30为分散剂,碳纳米管(CNTs)为导电增强材料,二水合乙酸锌和2-甲基咪唑(MeIM)为前驱体,合成出一种Zn-MeIM金属有机框架材料(ZIF-8)与CNTs的复合材料(ZIF-8@CNTs).研究表明,与ZIF-8及CNTs相比,所制备的ZIF-8@CNTs对4-氯苯酚(4-CP)的电化学氧化表...     

氢化物发生-电感耦合等离子体原子发射光谱法测定钢中微量砷、锑、铋

样品经盐酸-硝酸(3+1)溶液溶解,高氯酸冒烟后,用氢化物发生-电感耦合等离子体原子发射光谱法测定钢中微量砷、锑和铋的含量。研究了介质的酸度、硼氢化钾的浓度对3种元素信号强度的影响,并考察了其他元素对3元素测量的化学干扰。选择波长为189.042,217.58,223.06nm的3条谱线依次作为测定砷、锑和铋的分析线。砷、锑和铋的检出限(3s/k)分别为0.48,3.5,2.0μg.L-1。应用此法测定2个标准样品(GSBH40064-93和BH4265)中3种元素的含量,测定值与标准值相一致。