The three-dimensional braided composites, as their a serial of advantages which can not be substituted , and are used in the fields of high technology such as aeronautics and astronautics, etc.
三维编织复合材料由于具有一系列无法替代的优点,被广泛地应用于航空、航天等高科技领域。
Resin matrix composites are significant structural materials in the fields of astronautics and aeronautics.
树脂基复合材料是航空、航天领域中的新型重要结构材料。
Based on this, a new research direction of producing new type in-situ gradient composites in several physical force fields is proposed.
指出利用多物理场的复合作用制备新型梯度复合材料将是今后研究的重要方向。
The research fields have high precise numerical simulated method and its error estimate theory, the mechanical behavior of carbon/carbon composites, the mechanical behavior of braided composites, etc.
研究领域:高精度数值模拟方法及其误差估计理论、碳/碳复合材料力学行为研究、编织复合材料力学行为研究等。
The latest progress on applications of PANI composites in the fields of sensor, electromagnetic shielding, metal anti-corrosion, antistatic material, and so on is reviewed.
综述PANI复合材料在传感器、电磁屏蔽、金属防腐和抗静电材料等领域应用研究的最新进展,并指出了影响PANI复合材料性能的因素。
This paper reviews the recent applications of collagen and its composites in biomedical fields, such as tissue culture in vitro, wound repair, drug re...
综述了近年来胶原及其复合材料在诸如体外组织培养、创伤修复药物缓释和器官移植等生物医学领域的最新应用。
The results indicate that it is possible to control the behaviors of reinforced particles in the metal matrix by using intense magnetic fields in the solidification process of metal matrix composites.
强磁场的磁化力和洛伦兹力通过控制初晶硅颗粒迁移行为来改变其在合金基体中的分布状态,通过影响凝固过程中的对流现象改变合金的凝固组织。
Thus, it is of theoretical and practical importance to study the electro-elastic fields near the fibers in piezoelectric composites.
因此,研究压电复合材料中纤维附近的电弹场无论在理论上还是实际工程中都具有重要的意义。
The application fields of conductive polymer were introduced. The latest developing advances of conductive polymer composites at home and abroad were reviewed.
综述了国内外复合型导电聚合物的最新研究进展、技术成果以及应用领域。
Therefore, fabrication of magnetic composites with optimal saturation magnetization and high SERS activities enable us to extend its application in chemical and biological fields.
因此,制备此类强磁性,高sers活性磁性复合材料则可以大大拓展其在化学,生物中的应用。
Therefore, fabrication of magnetic composites with optimal saturation magnetization and high SERS activities enable us to extend its application in chemical and biological fields.
因此,制备此类强磁性,高sers活性磁性复合材料则可以大大拓展其在化学,生物中的应用。
应用推荐