提出随着纳米材料在木材科学与技术中的应用,必将给无机质复合木材的研究带来新的动力。
It suggested that the application of inorganic-nano materials to wood science and technology would bring forward a new impetus for wood-inorganic research.
纳米材料与纳米技术为寻求修复各种原因引起的骨组织缺损、畸形的新型材料和技术起了很大的推动作用。
The research of new materials and techniques repair defect and deformity of bone tissue, which caused by various disease, is an important challenge in life science and biomaterial science.
我意识到,在理解如何构造无机材料,以及控制它们与环境之间的相互影响方面,纳米技术将拥有巨大的用武之地。
I realised how much nanotechnology had to offer in understanding how to build up inorganic materials and control how they interact with the environment.
材料与结构在微纳米尺度展现了许多不同于宏观尺度的新特征,纳米技术已经成为当前科学研究与工业开发的热门领域之一。
It has been revealed that materials and structures on the micro and nanometer scale demonstrate many characteristics different from their macro dimensions.
纳米材料的合成与制备技术已成为全球的研究热点。
The technology for synthesizing nanometer materials has become global research hot spot.
将纳米技术与传统耐火材料生产技术相结合,有望使耐火材料呈现新的生机。
It is hopeful to bring a bright future to refractory by combining nano-tech and traditional refractory manufacturing technology.
综述了稀土材料和纳米技术相结合所产生的材料性能优势,并着重介绍了稀土纳米材料的研发与应用现状。
The paper reviews the superior performance of re material combined with nanotechnology, focusing on the introduction of development and present application of re nano-materials.
纳米压痕技术广泛用于材料力学性能的评估与测试,利用压痕的加卸载曲线可分析得到材料的硬度和折合模量等力学参数。
Nanoindentation has been widely used to evaluate and test material properties, we utilize the unloading curves of an indentation test to extract the hardness and reduced modulus of the material.
采用微波烧结新技术研究了纳米金属陶瓷材料的烧结工艺与性能。
The technology and property of nanometer cermet is studied with new microwave sintering technology.
本发明涉及一种钯掺杂的纳米二氧化钛抗菌剂及其制备方法与应用,属于抗菌材料技术领域。
The invention relates to a palladium-doped nano titanium dioxide anti-bacterial agent and a preparation method and an application thereof, belonging to the technical field of antibacterial material.
通过介绍纳米材料在多个领域中的应用,阐述当前纳米材料及技术具有广阔发展前景与经济效益。
In this paper, by generally introducing many applying fields of nano-materials, present widely development prospects and economical effects of nano-materials and nano-technology were discussed.
将纳米技术与贮氢材料结合起来,可显著的改变材料的贮氢性能。
Nanotechnology can remarkably modify the hydrogen storage properties of hydrogen storage materials.
通过纳米材料在木材、塑料、涂料等领域的应用,提出了纳米材料在木材科学与技术中的应用前景和发展趋势。
It also summarizes the application situation in wood, plastic, paint etc., and brings forward the application prospects and development direction of nano materials in wood science and technology.
主要就半导体纳米材料、金属纳米材料显现潜手印技术进展作了综述与展望。
The paper summarized the development technologies by semiconductor nanometer material and metal nanometer material.
中心的研究方向,主要从事微纳米加工技术、微纳米材料以及微纳米器件与系统的研究与应用,并为国内外产业及研究机构服务。
Thee current research fields of the center are micro and nano fabrication technologies, micro and nano materials, and micro and nano systems.
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;
纳米材料的本征性质与其结构密切相关,在纳米尺度操控材料并表征其结构是纳米科学与技术的关键。
Manipulation of materials with nanoscale control is the key of nanoscience and nanotechnology, because the intrinsic properties of nanoscale materials are closely determined by their structures.
纳米羟基磷灰石具有良好的生物相容性和生物活性,是较好的生物材料,被广泛应用于骨组织的修复与替代技术。
Nano-hydroxyapatite has been widely used as reconstructive and prosthetic material for osseous tissue, owing to its excellent biocompatibility and tissue bioactivity.
自发热护具以电气石为核心,与纳米生物功能材料结合制成的高新技术产品。
Spontaneous heating equipment to electrical stone as the core, and nanometer materials made of biological function with high-tech products.
自发热护具以电气石为核心,与纳米生物功能材料结合制成的高新技术产品。
Spontaneous thermal protectors in electrical stone as the core, and nano biological function made of materials with hi-tech products.
自发热护具以电气石为核心,与纳米生物功能材料结合制成的高新技术产品。
Spontaneous thermal protectors in electrical stone as the core, and nano biological function made of materials with hi-tech products.
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