仿生材料

贝壳珍珠层生物矿化及其对仿生材料的启示

Advances in Biomineralization of Nacreous Layer and Its Inspiration for Biomimetic Materials

生物矿化在仿生材料领域的研究进展

Research Progress of Biomineralization in Biomimetic Materials Field

使用Festo的仿生材料分类闸，以Festo的流体肌肉为致动器，一步程序就可以把材料系统地分成七部分。

Seven parts can be systematically sorted in a single procedure with the bionic material sorting gate from Festo , with Festo fluidic muscles as actuators .

该工作对仿生材料的选择将具有比较重要的指导意义。

It is instructional significance for the selection of bionic materials .

天然生物材料结构特征及仿生材料的发展趋势

Structural Characteristics in Natural Biomaterials and Developing Trend of Bionic Material

仿生材料设计与制备的研究进展

Progress in Design and Fabrication of Biomimetic Material

生物矿化过程机理为制备具有特殊功能的仿生材料提供了新的思路。

The new strategies for synthesis of functional biomaterials can be derived from mechanism of biomineralization .

仿生材料的研究现状

Research Status of Biomimetic Materials

本论文进一步丰富和发展了模拟生物矿化合成无机仿生材料的方法，研究了合成类自然生物仿生材料的新思路和聚合物诱导的液态前驱物过程。

In this dissertation , we have enriched and further developed the biomimetic approach to synthesize inorganic biomaterials .

建筑材料向着新的功能材料、仿生材料和新概念材料方向发展。

The developing tendence of building mate-rials is toward new function materials , bionics material and new concept materials .

对材料进行生物或化学修饰的复合材料、纳米材料、仿生材料及智能材料等的研制与开发将是未来生物材料研究的重要内容。

Manufacture and investigation on compound materials , nano-materials , bionic materials and intelligent materials are important tasks in future research on biomaterials .

选择仿生材料的依据是两个表面之间的粘着力和摩擦力之间的相对关系，为此设计并研制了具有粘着力和摩擦力自动测试功能的实验机。

An automatic measurement device is developed for the selection of the bionic materials , which depends on the characteristics of adhesion and friction .

仿生材料目前是各国科学家关注的焦点，理论与实验研究已经取得很大进展。

Bionic materials are the focus by scientists all over the world now , the theory and experiment of it both make great progress .

主要内容包括生物化学基础、天然生物材料、生物医学材料、生物化学材料、仿生材料学简介等。

The course of biomaterials mainly includes biochemistry foundation , inartificial biomaterials , biomedical materials , biochemical materials , survey for biomimetic material science .

仿生材料是材料学科的一个新的研究领域，本文介绍了仿生材料的研究现状，展望了其发展前景。

The bionics material are new study domain of The material subject . The status quo of this research is surveyed and its prospect discussed .

对其结构、组成和性能等进行深入研究，可为高性能仿生材料的合成提供模板和科学依据。

Thoroughly studying on ligament structure , composition , and properties can provide not only scientific data , but also templates for synthesizing of high performance biomimetic materials .

简要地介绍了贝壳珍珠层天然生物材料的结构特征，进而综述了仿生材料的研究现状。

The characteristic of structure of shell nacre and some kinds of natural biomaterial are briefly introduced , and the research and recent developments of biomimetic materials are reviewed .

蛋白质在载体材料表面的吸附广泛应用于生物材料、生物医学、生物传感器、仿生材料等领域。

The adsorptions of protein on different substrate are widely applied in various fields , such as biomaterials , biomedical devices , biosensors , biomimetic materials and so on .

本论文旨在补充和发展无机微纳结构材料的合成与组装方法，利用前驱体煅烧路线控制合成多孔无机材料，以及利用生物分子模板法设计制备微纳结构的仿生材料。

This dissertation is intended to supplement and develop precursor calcinations routes to synthesize porous inorganic materials and use templates to prepare micro - or nano-scale biomimetic inorganic materials .

基于生物的原理合成无机材料，即仿生材料工程，是一种全新的材料设计和制造策略，逐渐引起学术界和工业界的广泛兴趣。

Based on the biological mechanisms of the synthesis of inorganic materials , biomimetic material engineering is a novel strategy of material design and manufacture , and now has become a promising field in material science research and industry .

通过对传统材料和仿生材料及其脱土性能的综述，总结了触土部件土壤粘附系统仿生改性减粘降阻的基本规律，并对仿生改性研究进行了展望。

Basic principles of bionic modification of soil - engaging component material are summarized by reviewing the properties of traditional materials and bionic materials used in anti-adhesion against soil , and the prospect for bionic modification research of soil-engaging component materials is given .

仿生材料超疏水表面具有自清洁、防结冰结霜、流体减阻、耐腐蚀等特性，广泛应用于民生、汽车、国防等领域。

Superhydrophobic surface is a kind of valuable bionic materials with many special properties , such as self-cleaning , anti-icing / frosting , drag reduction and corrosion resistance , which is widely applied in the automobile , livelihood , military and the other fields .

从仿生材料科学与工程以及净化环境的观点介绍了生态材料的主要研究领域，并展现与生态环境协调的材料和系统的构思，以期引起重视。

The main research areas of ecomaterials are introduced from the points of views of biomimetic science and engineering and clean environment . The conceptions of developing materials and systems compromising with environment and ecology for the purpose of attracting the attention to environmental protection .

本课题运用生物矿化原理提出两种方案制备了柞蚕丝丝素蛋白（TSF）骨仿生复合材料。

Two kinds of projects were proposed to prepare bone biomimetic composite materials with tussah fibroin .

目的：对一种新型纳米羟基磷灰石材料-纳米羟晶-胶原仿生骨材料（nHAC）进行细胞相容性和细胞毒性的研究，以初步探讨其应用于牙周组织工程的可行性。

AIM : The cytocompatibility and cytotoxicity of nano-HAp-collagen ( nHAC ) were investigated to evaluate the feasibility of nHAC as the scaffold material of periodontal tissue engineering .

一类潜在的石质文物表面防护材料：仿生无机材料

A potential protect material in stone conservation : biomimetic inorganic material

纳米羟基磷灰石丝素蛋白仿生矿化材料的制备研究

Study on Preparation of n-HA and Silk Fibroin Bio-mineral Material

纳米羟基磷灰石/聚酰胺66仿生复合材料的非等温结晶动力学研究

The study of nonisothermal crystallizing kinetics for nano-hydroxyapatite / polyamide 66 composites

壳聚糖/羟基磷灰石仿生骨材料的研究

Study on the Chitosan / Hydroxyapatite Biomimetic Bone Materials

新型仿生功能材料反应锅的设计与控制

Designment and control of new type of reactor for macromolecule bionics function materials