Results 71 to 80 of about 23,320 (232)
Jianzhu Gangjiegou Jinzhan, 2018 罕遇地震下偏心支撑框架结构需合理有效地增大消能梁段的延性和耗能能力,并减小消能梁段的损伤,以使该种结构能更好地适应当前的抗震要求。基于剪切型消能梁段的力学特性和扩孔型螺栓连接的受剪滑移能力,提出一种扩孔螺栓连接型消能梁段。采用校正的有限元方法对扩孔型螺栓连接和扩孔螺栓连接型消能梁段进行详细分析,以明确相应试件的力学性能。研究结果表明,扩孔螺栓连接型消能梁段具有高延性和强耗能等特点,能有效提高偏心支撑框架结构的抗震性能和震后功能恢复能力,并为偏心支撑框架结构的抗震设计提供新的思路和方法。
胡淑军, 熊进刚, 宋固全
doaj
[Three-dimensional printed 316L stainless steel cardiovascular stent's electrolytic polishing and its mechanical properties]. [PDF]
Sheng Wu Yi Xue Gong Cheng Xue Za Zhi, 2023 Chen Z +7 more
europepmc +1 more source
Static and dynamic properties of polymer brush with topological ring structures: Molecular dynamic simulation [PDF]
, 2016 聚合刷是一层由聚合物长链将一端固定在基板面上形成的“刷子”状的聚合物体系。聚合物刷的研究在许多领域具有重要的应用,如聚合物的粘附、胶体稳定、润滑和细菌中DNA的分离等。最近几年,聚合物在数学分析,数值模拟和实验科学中一直是个研究的热点。环形聚合物在熔融体或是溶液中的构型的特异性,使得它是聚合物物理研究中的热点话题。Flory理论表明线性聚合物链在熔融体中的行为类似于高斯链,由于排除体积的效应,线性链在熔融体中,对于标度关系R_G~N^ν,有Flory指数ν=1⁄2。然而 ...
万吴兵
core +1 more source
Rare Metals, EarlyView.ABSTRACT The covalent bonds at heterojunction interfaces enable more efficient charge carrier separation than traditional weakly coupled heterojunctions, with enhanced photocatalytic performance for organic wastewater purification. The interfacial covalent bonds drive energy band reorganization, rendering the conventional independent band edge ...
Jing‐Yu Ren +5 more
wiley +1 more source
Sol-Gel Preparation of Modified TiO2 Films and Its Superhydrophilicity Performance in Absence of UV Irradiation Investigation [PDF]
, 2015 具有自清洁特性的超亲水薄膜,以其优异的超亲水性能,在环境净化、生物医学和建筑材料等众多领域有着广泛的实用潜力。然而,TiO2超亲水薄膜的实际应用却一直被限制。一方面,TiO2作为一种宽禁带半导体,只有在紫外光辐照条件下才具有优异的超亲水性,维持其超亲水性能强烈依赖于紫外光诱导,无法实现可见光响应或暗态下的超亲水性;另一方面TiO2超亲水薄膜受限于制备工艺的复杂和生产成本的高昂。因此,本文以钛酸正丁酯(Ti(OBu)4)为钛源,采用工艺操作简单、适合工业生产等优点的溶胶-凝胶法(Sol-Gel ...
孔令捷
core
New Advances of Degradable Magnesium‐Based Metal Biomaterials in the Field of Orthopedics
Rare Metals, EarlyView.ABSTRACT Based on their outstanding biomechanical properties and superior osteogenic activity, magnesium (Mg) and its alloys have been extensively investigated for their biocompatibility and therapeutic efficacy in treating fractures and bone defects.
Jia‐Nan Yu +8 more
wiley +1 more source
Garnet and LISICON-type Solid Electrolytes: Synthesis, Performance and Ionic Diffusion Dynamics [PDF]
, 2015 相对于有机液体电解液,无机固体电解质在化学与电化学稳定性方面具有无可比拟的优势,能极大提升锂离子电池安全性能及其循环稳定性,近年来成为可充锂(离子)电池研究者所关注的热点。其中,对Li4SiO4-Li3PO4(LISICON)体系的研究已经有近30年的历史,由于其较低的原料成本、较为容易的合成条件及良好的稳定性,研究者对该体系依然保持着很高的研究兴趣。Garnet型固体电解质是新兴锂离子导体,由于其具有高Li+电导率和良好的稳定性,一问世便引起工作者极大的研究兴趣 ...
王大为
core
Rare Metals, EarlyView.ABSTRACT The limited osteogenic capacity of magnesium phosphate cement (MPC) has constrained its biomedical applications, underscoring the necessity to develop MPC with enhanced physical properties and bone‐forming capabilities. In this study, a multifunctional MPC system was developed by incorporating zoledronic acid‐loaded near‐infrared (NIR ...
Bin Wang +8 more
wiley +1 more source
Gaoya dianqi, 2018 盆式绝缘子综合性能的提高通常难以兼顾,文中基于分子动力学模拟,通过纳米掺杂辅助设计出符合要求的复合材料,进而提高其热学和力学性能。首先,通过分子模拟软件建立环氧树脂及掺杂了3种碳纳米管(未封端、半封端、全封端)的环氧树脂复合材料模型,将其导入到LAMMPS进行计算。其次,基于Reax FF对其做密度优化,得到符合实际的合理空间结构。然后,采用静态常应变法计算了该4种模型的力学性能,采用非平衡态分子动力学方法获取4种模型的热导率。结果表明:掺杂全封端的碳纳米管使复合材料的力学性能提升26.5 ...
韩智云 +5 more
doaj
He jishu上海硬X射线自由电子激光装置(Shanghai HIgh-repetition-rate XFEL aNd Extreme Light Facility,SHINE)具有高亮度、全相干性和高重复频率等特点。对于高重频硬X射线进行聚焦时,复合折射透镜(Compound Refractive Lens,CRL)需要承受高热负载,甚至会出现由高热应力引起的光学器件性能失效问题。为了确保CRL聚焦镜的热应力在许可限定范围内和CRL聚焦镜在高重频X射线下保持良好的光学性能,采用有限元方法(Finite ...
王 震, 佟 亚军, 刘 芳
doaj +1 more source