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多层状结构声表面波扭矩传感器研究 被引量:2
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作者 孟旭 赵青青 +2 位作者 李志鹏 王博男 张超 《森林工程》 北大核心 2021年第6期74-81,共8页
扭矩传感器是监测工程机械工作状态的重要部件,尤其对保证旋转机械及轴体的安全运行起着至关重要的作用。本文利COMSOL有限元仿真软件建立叉指换能器/铌酸锂/金刚石/硅的多层状结构仿真模型并进行特征频率与频域分析。通过仿真分析与实... 扭矩传感器是监测工程机械工作状态的重要部件,尤其对保证旋转机械及轴体的安全运行起着至关重要的作用。本文利COMSOL有限元仿真软件建立叉指换能器/铌酸锂/金刚石/硅的多层状结构仿真模型并进行特征频率与频域分析。通过仿真分析与实验结果表明:与现有石英单晶体制备的声表面波扭矩传感器相比,多层状结构的声表面波扭矩传感器波长更小、体积更小、特征频率可以达到2 GHz,机电耦合系数为5,扭矩灵敏度高,输出频率线性度好,完全适用于扭矩测量系统。 展开更多
关键词 声表面波 多层状结构 有限元分析 参数优化 扭矩传感器
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具有单向导湿功能的含香织物的开发 被引量:1
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作者 王佳佩 胡旭纯 《天津纺织科技》 2022年第6期47-49,共3页
文中从理论分析和具体操作方法上,介绍一种具有单向导湿功能的含香织物的实现方法。采用不同纤维构成多层面料坯布,形成从内至外的水分传递梯度,将含香料的微胶囊制作工艺与水凝胶制作工艺相结合形成具有水凝胶特性的微胶囊,通过交联接... 文中从理论分析和具体操作方法上,介绍一种具有单向导湿功能的含香织物的实现方法。采用不同纤维构成多层面料坯布,形成从内至外的水分传递梯度,将含香料的微胶囊制作工艺与水凝胶制作工艺相结合形成具有水凝胶特性的微胶囊,通过交联接枝的方法将该微胶囊附到面料纤维上,实现单向导湿功能和芳香抑菌的双重功效,为后续的相关开发提供参考。 展开更多
关键词 单向导湿 微胶囊 芳香抑菌 交联接枝 多层状结构
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Performance of carbon-coated nano-ZnO prepared by carbonizing gel precursor as anodic material for secondary alkaline Zn batteries 被引量:3
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作者 Ke PENG Zhi-jian ZHANG +3 位作者 Ze-jun ZHAO Chao YANG Zhong-liang TIAN Yan-qing LAI 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2019年第10期2151-2159,共9页
Although carbon coating can improve the cycle life of anode for alkaline Zn batteries, the specific capacity reported is still lower compared with nanosized ZnO. Herein, carbon-coated nanosized ZnO(nano-ZnO@C) was syn... Although carbon coating can improve the cycle life of anode for alkaline Zn batteries, the specific capacity reported is still lower compared with nanosized ZnO. Herein, carbon-coated nanosized ZnO(nano-ZnO@C) was synthesized by one-step heat treatment from a gel precursor in N2. Commercial ZnO and homemade ZnO prepared similarly in air atmosphere were studied for comparison. Structure analysis displayed that both nano-ZnO@C and homemade ZnO had a porous hierarchical agglomerated architecture produced from primary nanoparticles with a diameter of approximately 100 nm as building blocks. Electrochemical performance measurements showed that nano-ZnO@C displayed the highest electrochemical activity, the lowest electrode resistance, the highest discharge capacity(622 m A·h/g), and the best cyclic stability. These properties were due to the combination of nanosized ZnO and the physical capping of carbon, which maintained the high utilization efficiency of nano-ZnO, and simultaneously prevented dendrite growth and densification of the anode. 展开更多
关键词 carbon-coated nano-ZnO sol-gel method porous hierarchical architecture Zn-Ni battery
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Self-assembly of Ophiopogonis polysaccharide-iron(Ⅲ) complex in aqueous solution and solid state 被引量:4
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作者 Chunxia Tan Yali Wang 《Journal of Chinese Pharmaceutical Sciences》 CAS CSCD 2019年第9期665-672,共8页
Ophiopogonis polysaccharide-iron(Ⅲ)(OPI)was prepared and characterized in the present study.The optimum condition for preparing OPI was as follows:OP and trisodium citrate were mixed at a weight ratio of 4:1 and reac... Ophiopogonis polysaccharide-iron(Ⅲ)(OPI)was prepared and characterized in the present study.The optimum condition for preparing OPI was as follows:OP and trisodium citrate were mixed at a weight ratio of 4:1 and reacted in a water bath at 70°C for 3 h within the pH range of 8.0–8.5.Aggregation morphology or structure of OPI in aqueous solution and solid state was studied by scanning electron microscopy,transmission electron microscopy and small-angle X-ray diffraction.In aqueous solution,OPI could self-assemble into micron vesicles with flower-shaped morphology.Results of X-ray diffraction showed OPI with layered structure.A core-shell model was proposed for OPI. 展开更多
关键词 Supramolecular complexes Ophiopogonis polysaccharide-iron(Ⅲ) SELF-ASSEMBLY Flower-shaped morphology Layered structure
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Bionic mechanical design and 3D printing of novel porous Ti6Al4V implants for biomedical applications 被引量:13
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作者 Wen-ming Peng Yun-feng Liu +6 位作者 Xian-feng Jiang Xing-tao Dong Janice Jun Dale A. Baur Jia-jie Xu Hui Pan Xu Xu 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2019年第8期647-659,共13页
In maxillofacial surgery, there is a significant need for the design and fabrication of porous scaffolds with customizable bionic structures and mechanical properties suitable for bone tissue engineering. In this pape... In maxillofacial surgery, there is a significant need for the design and fabrication of porous scaffolds with customizable bionic structures and mechanical properties suitable for bone tissue engineering. In this paper, we characterize the porous Ti6Al4V implant, which is one of the most promising and attractive biomedical applications due to the similarity of its modulus to human bones. We describe the mechanical properties of this implant, which we suggest is capable of providing important biological functions for bone tissue regeneration. We characterize a novel bionic design and fabrication process for porous implants. A design concept of “reducing dimensions and designing layer by layer” was used to construct layered slice and rod-connected mesh structure (LSRCMS) implants. Porous LSRCMS implants with different parameters and porosities were fabricated by selective laser melting (SLM). Printed samples were evaluated by microstructure characterization, specific mechanical properties were analyzed by mechanical tests, and finite element analysis was used to digitally calculate the stress characteristics of the LSRCMS under loading forces. Our results show that the samples fabricated by SLM had good structure printing quality with reasonable pore sizes. The porosity, pore size, and strut thickness of manufactured samples ranged from (60.95± 0.27)% to (81.23±0.32)%,(480±28) to (685±31)μm, and (263±28) to (265±28)μm, respectively. The compression results show that the Young’s modulus and the yield strength ranged from (2.23±0.03) to (6.36±0.06) GPa and (21.36±0.42) to (122.85±3.85) MPa, respectively. We also show that the Young’s modulus and yield strength of the LSRCMS samples can be predicted by the Gibson-Ashby model. Further, we prove the structural stability of our novel design by finite element analysis. Our results illustrate that our novel SLM-fabricated porous Ti6Al4V scaffolds based on an LSRCMS are a promising material for bone implants, and are potentially applicable to the field of bone defect repair. 展开更多
关键词 Layered slice and rod-connected mesh structure (LSRCMS) Porous Ti6Al4V implant Bone defect repair Selective laser melting (SLM) Mechanical properties Finite element analysis
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