仿生制造

利用图像处理软件中所得到的DAT文件，在CAD三维造型软件UG中重建了人体头骨的三维实体模型，为仿生制造奠定了基础。

We reconstruct the 3-D modeling of human skull in the UG software of CAD , making use of the DAT profile gained by the former software application , which provides a basis for bionic manufacturing .

基于医学图像的人工关节三维重建系统研究是一个典型的多学科交叉领域，它涉及到医学图像处理、三维重建、虚拟仿生制造等相关技术。

Artificial Joint Reconstruction System based Medical Image is a typical multi-subjects field . It involves medical image process , three-dimensional reconstruction and virtual bionic manufacturing , etc.

基于RP的生物活性仿生制造研究

Research on Bioactive Bionics Fabrication Based on RP

本研究将为工程仿生制造与设计提供宝贵的信息源。

The study also provides valuable information for the development of bionics engineering .

仿生制造是人类制造技术发展的高级形式。

The bionics fabrication is a high-level manufacturing technology .

新型人工生物活性骨的仿生制造研究

Research on the bionic fabrication of new artificial bone

快速制造领域中的前沿学科&仿生制造

Frontier Subject in Rapid Manufacturing Field & Biomanufacturing

论仿生制造

On the Bionics Manufacturing

研究结果对深入研究蛇类腹部表皮的摩擦特性及蛇皮的仿生制造提供了基础资料。

The results of this paper provide the basic data for the research on the friction properties of the snake 's ventral epidermis and references for the bionic manufacture of the snake epidermis .

信息化和绿色制造是新世纪制造业的主要特征，仿生制造是新兴的前沿，纳米和微系统制造技术是时代对机械制造业赋予的使命。

Informationization and green manufacturing are main features of the manufacturing industry in the new century , bionic manufacturing is a burgeoning frontier , and nanometer and micro system manufacturing are mission given by the era to the machine manufacturing industry .

将CAD／CAM技术应用于人工关节和人造骨的外形以及微观仿生设计、制造和模拟生物材料在生物体内的降解过程，使得个性化人工关节的设计、制造以及应用成为现实。

We apply the CAD & CAM technology into the bionic design and manufacture of artificial to make the individualized artificial joint design and manufacture into reality . By doing that , the artificial can match the patient 's anatomical structure accurately ;

骨组织工程支架仿生设计与制造

The Bionic Design and Manufacture of Tissue Engineering Scaffold

本研究仿生设计、制造了一种新型的个体化股骨髁人工关节软骨。应用猪作实验对象，探讨了该人工关节软骨设计、制造的方法并进行一些相关研究，为临床应用打下基础。

The study designed and manufactured a new custom-made artificial cartilage of femoral condyle and explored the procession by a pig femur .

本文对骨组织工程支架的功能与结构进行分析之后，针对支架模型应该满足的基本要求，提出了一种新的骨组织工程支架仿生设计与制造方法。

In this paper , by analyzing the function and the structure of bone scaffolds , a new bionic design and manufacture method is expressed to meet the basic requirement of human bone .