The development and application of the laser ultrasound technology will make a profound effect in mechanical engineering and surface physics.
激光超声技术的开发和应用,将在机械工程、表面物理等领域产生深远的影响。
This paper introduces some key technologies in the field of manufacture about reverse engineering, such as technology of profile modeling, figuration manufacture and surface reproduction.
说明和分析了反求工程在制造领域中的几个关键技术:仿形测量技术、成形制造技术和表面再现技术。
Preprocessing of "points cloud" data and surface reconstruction are the critical technology of reverse engineering and are the premises of building product CAD model.
“点云”数据的预处理和曲面重建技术是反求工程的关键技术,是产品CAD模型建立的前提。
The key technology about surface digitizing and reconstruction in the mold tooling digitized manufacturing based on the reverse engineering as well as the basic theory is analyzed.
介绍了以反求工程为技术支撑的复杂曲面模具数控加工的基本原理和实现过程关键技术—样件表面数字化技术和曲面重构技术。
Based on the knowledge of formation, characteristic, and mechanism of component's failure, surface engineering is extensively used to protect component surface by different of surface technology.
表面工程是针对零件表面失效的形式、特征和机理,综合运用各种表面技术进行防护的工程。
The progress and production of using surface engineering technology to produce nano-structured surface in and out our country were analyzed.
分析列举了近些年来国内外利用各种表面技术手段制备纳米结构表面的进展和成果。
Reconstruction and copying machining of existing freeform surface are one of key technology in reverse engineering.
现有自由曲面的重建与仿形制造是反求工程中的关键技术之一。
Thermal spraying technology is an important part of surface engineering science. It is a new technology of material aggrandizement and surface character changing.
热喷涂技术是表面工程学的重要组成部分,它是一种材料表面强化和表面改性的新技术。
The 3D profile measuring technology is an important approach, and composite surface modeling is the main content for researching in reverse engineering.
三维轮廓测量技术是实现反求工程的重要手段,复杂曲面建模技术是反求工程研究的重点内容。
This paper introduces a method, which can measure very complex profile or surface of a casting part by using three dimension coordinate measuring machine and reverse engineering technology.
介绍了一种利用三坐标测量机与反求技术相结合,实现铸造零件复杂轮廓检测的具体方法。
It is used in aviation, space, military engineering, textile, machinery, power, chemical engineering, bioengineering and so on. It is an advanced surface engineering technology.
已广泛应用于航空、航天、军事、纺织、机械、电力、化工、生物工程等各个领域,是一项具有广阔应用前景的技术。
It is used in aviation, space, military engineering, textile, machinery, power, chemical engineering, bioengineering and so on. It is an advanced surface engineering technology.
已广泛应用于航空、航天、军事、纺织、机械、电力、化工、生物工程等各个领域,是一项具有广阔应用前景的技术。
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