位于纽约的Rensselaer工艺学院未芯灿研究组(FCC)的科学家开发出了这种利用纳米技术生产的涂层材料。 (纳米技术是一种基于分子级别的工程装置。)
Scientists from the Future Chips Constellation (FCC) at the Rensselaer Polytechnic Institute in New York have created the coating using nanotechnology -- engineering devices on a molecular scale.
莱斯大学的工程师们计划使用由组员StephanLink所发现的纳米材料创制能感知光的薄片材料,它与头足类动物皮肤的快速变色原理一致。
The Rice engineers plan to use nanomaterials discovered by team member Stephan Link to create sheets of materials that can see light in the same ways as cephalopods' skin and change color quickly.
纳米晶材料是目前材料科学与工程领域中最具吸引力的材料之一。
Nanocrystalline materials are the most attractive materials in the field of materials science and engineering in the world.
介绍了大块纳米晶材料的结构特性、性能、主要的制备方法以及纳米晶材料在工程中的应用前景。
The structural characteristics, properties, main preparation methods of bulk nanocrystalline materials, and their application and development prospect in material engineering are introduced.
DZ40M合金表面纳米和垂直裂纹结构热障涂层的抗燃气热腐蚀性能[J]。材料工程,2014,(5):66-72。
Gas hot-corrosion resistance of nanostructure and segmentation thermal barrier coatings on DZ40M superalloy[J]. Journal of Materials Engineering, 2014, (5):66-72.
自制的纳米银-猪小肠黏膜下层补料无细胞毒性,作为组织工程材料修复腹壁损伤具有可行性。
The self-made nano silver-porcine small intestine submucosa feeding has no cytotoxicity, and which has feasibility of repairing abdominal injury as tissue engineering material.
纳米材料的管理,提供对科学家和工程师的消费产品中是最重要的一个方面的纳米技术。
The control of materials that nanotechnology offers to scientists and engineers of consumer products is one of the most important aspects of nanotechnology.
高分子纳米复合及功能化材料的研究和开发,是当前材料科学与工程界的前沿和重要课题。
The research and development of polymer nanocomposites and their functionalization are one of the forefronts and important subjects in the field of materials science and engineering.
目的探讨纳米材料作为组织工程骨基质材料的可行性。
Objective To investigate the feasibility of the nanometer crystal hydroxyapatite collagen material as scaffold material in bone tissue engineering.
纳米级羟基磷灰石既具有纳米材料的特性,又具羟基磷灰石本身的特性,适于骨组织工程支架材料的构建。
Nanometer ha with the characteristics of nanometer materials and ha itself is fit for the study of scaffold for engineering bone.
结论纳米组织工程骨有良好的生物相容性,可作为骨组织工程理想的载体材料。
Conclusions NHAC has good biocompatibility and can be used as ideal biomaterial in bone tissue engineering.
组织工程支架材料表面的微观和亚微观结构对细胞的黏附与生长有很重要的影响,纳米结构材料的应用为该结构展现了较广阔的前景。
Micro and nano structured surfaces of scaffold materials have important effects on cells adhesion and proliferation, and there is great application of nano structure materials in this field.
这种技术将纳米晶体材料的优异性能与传统工程金属材料相结合,在工业应用上具有广阔的应用前景。
This kind of technique combine together the excellent function of nanocrystal materials with the traditional engineering metal materials, and have very widely applied foreground in the industry.
结论:纳米组织工程骨有良好的生物相容性,可以作为骨组织工程理想的载体材料。
Conclusions: NHAC has good biocompatibility and can be used as ideal biomaterial in bone tissue engineering.
纳米技术,新材料及结构产品,智能聚合物,绿色有机合成路线,环境工程与管理;
Nanotechnology; New materials & structured products; Intelligent polymers; Green organic synthesis routes; Environmental engineering & management;
纳米纤维材料可以模拟细胞外基质的机关和成果,作为肌腱组织工程的支架有明明的优越性。
Nanofiber scaffolds can mimic the structure and function of extracellular matrix, and have advantages for tendon tissue engineering.
在国内外著名大学或研究机构获得微电子、纳米材料、精密仪器、光学、生物工程等相关专业博士学位。
The candidate must have a PhD in the field of microelectronics, nanomaterials, precision instrument, optics, or bioengineering from a prestigious university.
在国内外著名大学或研究机构获得微电子、纳米材料、精密仪器、光学、生物工程等相关专业博士学位。
The candidate must have a PhD in the field of microelectronics, nanomaterials, precision instrument, optics, or bioengineering from a prestigious university.
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