本文研究了反求工程与快速原型制造集成中的关键问题,即如何从点云数据生成层片轮廓数据。
This paper studies how to generate the slice data from point clouds, which is the critical problem in the integration of Reverse Engineering and Rapid Prototyping Manufacturing.
本论文首先介绍了反求工程和快速原型技术的原理、工艺过程和应用领域、等。
In this paper, the theory, process and application of reverse engineering and rapid prototyping are introduced at first.
反求工程是一种现代快速设计方法,方案设计是机械产品设计的关键。
The reverse engineering is a modern quick designing method, and the scheme design is the key of machine product design.
反求工程是一种应用非常广泛的新兴技术,在快速成形制造中具有重要作用。
As a new developing technology used widely, reverse engineering has played an important role in rapid prototyping manufacturing.
随着市场竞争的不断加剧,时间因素占据着主导地位,反求工程和快速成型技术的直接集成越来越受到重视。
Time has become the major role in the market competition, so the direct integration of reverse engineering and rapid prototyping is becoming important more and more.
目的了解反求工程和快速成型技术对单侧眼眶部缺损进行计算机辅助设计和制作的效果。
Objective By reverse engineering and rapid prototyping techniques to found a new design method of maxillofacial restoration.
介绍了反求工程和快速成型技术在呼吸面罩设计中的应用。
The application of the reverse engineering and rapid prototyping technologies in the design of respiratory masks is introduced in this paper.
精度设计是反求工程中的一项重要内容,该文提出了工业产品快速反求过程中,反求精度校核的目的和意义。
In order to improve the whole accuracy and speed of product rapid reverse engineering, the paper puts forward a fast and simple method of accuracy ca.
阐述反求工程的基本概念及反求工程技术在新产品快速开发中的核心作用。
In the paper, the basic conception and key action of the reverse engineering for new products 'high speed development have been introduced.
基于反求工程和快速成形技术直接制造的个体化金属植入物,解决了目个体化植入物翻模制造、周期较长的问题。
The new individualized metal implant is based on reverse engineering and rapid prototyping technique, and has solved the problems of long period manufactural procedure in the traditional technique.
也可用在数控机床中,作为反求工程中的快速测量系统。
It can also be used in NC machine tools as a system for quick measurement with derivation engineering.
利用反求工程可以实现修复体的三维重建,激光扫描法可以快速收集修复体的三维表面信息,精度高,并且没有测量盲区。
Reverse Engineering can be used to reconstruction the prosthesis. The 3d surface information of the prosthesis can be collected by the laser scan system and there is no blind area.
利用反求工程可以实现修复体的三维重建,激光扫描法可以快速收集修复体的三维表面信息,精度高,并且没有测量盲区。
Reverse Engineering can be used to reconstruction the prosthesis. The 3d surface information of the prosthesis can be collected by the laser scan system and there is no blind area.
应用推荐