Electrospinning of biomimetic regenerated silk fibroin aqueous solutions——part 1:processing parameters and structure properties;
仿生制备的再生丝素蛋白水溶液的静电纺丝(Ⅰ)——工艺参数及结构特性
Progress of biomimetic process on the surface of biomedical metal materials;
医用金属材料表面仿生处理研究进展
Surface Biomimetic Waterproof Modification of Chitosan Rod;
壳聚糖棒材表面仿生拒水改性的研究
Experimental research on identification of mine fire by using bionic smell sensors array;
仿生气味传感器阵列判识煤矿火灾的实验研究
Study on WC/Cu Based Bionic, Non-smoothed, and Composite Coating;
WC/Cu基仿生非光滑耐磨复合涂层的研究
Experimental research on a bionic propulsor with double tail-fins;
仿生双尾推进的试验研究
The applying of plants structure bionics in industrial design;
植物结构仿生学在工业设计中的应用研究
Interpretation of Bionics and Solar Energy Utilization in Architecture;
仿生与建筑中太阳能利用的解析
Analysis of Design of I.C.E.Piston Based on Design Bionics;
基于仿生设计学的内燃机活塞设计分析
A way that manufactured metallic material with fractal structure has been studied through biomimetics and fractal.
通过仿生、分形与材料制备相结合的途径,以天然分形材料海藻作为基底材料,利用化学沉积 和电沉积的方法,制备出具有明显分形结构的金属镍,用计盒维数法计算出其分形维数为1。
A way of manufacturing metallic (Cu) material with fractal structure was studied using thebiomimetics and fractal concept.
从仿生的观点出发,选择具有分形结构的叉枝藻(海藻的一种)作为基底材料,经预处理后用化学沉积方法,先在海藻基底上沉积得到一层铜金属,之后再用电沉积方法,使基底表面的金属铜层加厚到一定程度(30~50μm),最后通过烧蚀去除包裹在铜金属中的海藻,从而得到较为纯净的具有分形结构的金属材料。