1) laser heat processing
激光热加工
1.
The steps of the temperature field analysis for laser heat processing are also presented.
总结分析了激光热加工温度场与焊接温度场的异同 ,以及温度场分析与模拟的数学方法。
2) laser heating
激光加热
1.
Temperature responses of thin metal film to short-pulse laser heating;
金属薄膜在短脉冲激光加热下的温度响应
2.
Theory of microscale heat transfer and short-pulse laser heating of thin metal films;
微尺度热传导理论及金属薄膜的短脉冲激光加热
3.
Influence of laser spacial profile on laser heating material;
激光束光强分布对材料激光加热的影响
3) laser process
激光加工
1.
With nearly 20 years rapid development, laser processing technology was becoming one of the key technology in improving traditional manufacture.
由于激光加工具有非接触性、速度快、加工精度高等特性,故目前被广泛的应用于汽车、机械、航天等领域中。
2.
YAG solid laser notching is an technology,but the choice of laser processing parameter depends on experience mainly.
YAG固体激光切槽是当前最先进的连杆裂解槽加工工艺,但其激光加工参数的选择主要依靠经验。
4) laser processing
激光加工
1.
Research and improvement on power supply of digital controlled YAG laser processing system;
数控YAG激光加工系统电源的研究及改进
2.
Design and manufacture of the intelligent precision platform for a laser processing system;
一种用于激光加工系统的智能化精密平台的研制
3.
Using laser processing device in instrument and meter manufacturing application;
YAG激光加工机在仪表制造业中的应用
5) laser machining
激光加工
1.
PC-Based Laser Machining CNC System;
基于PC平台的激光加工数控系统
2.
Research of Laser Machining and Friction Property Regular Surface Micro Texturing;
规则表面微造型的激光加工和摩擦特性研究
3.
Development of All Solid-state Laser Machining Equipment Based on Kilowatt DPSSL
基于DPSSL的千瓦级全固态激光加工装备研制
6) laser manufacturing
激光加工
1.
Creative design of parallel mechanism laser manufacturing system;
并联机构激光加工系统创新设计
2.
The advantages of laser manufacturing and demands to laser parameters are introduced,and the diode pumped solid-state laser which is the hot topic of solid lasers is also described.
介绍了激光加工的优点和对激光器输出参数的要求,对固体激光器中发展最活跃的半导体泵浦全固体激光器进行了分析。
3.
The properties, the application & development situation and the tendencies of laser manufacturing technology are presented.
结合河北工业大学光机电一体化研究室近几年对激光加工技术研究的初步成果,对激光加工技术的特点,激光加工技术在国内外的应用发展状况,以及激光加工技术的发展趋势进行了简要介绍,同时分析了我国激光加工产业面临的机遇与挑战,并提出了应采取的对策。
补充资料:催化剂热加工
分子式:
CAS号:
性质:又称催化剂热加工。指催化剂制备过程中的热处理步骤,如滤饼或浸渍了活性组分的载体的烘干、热分解、焙烧等,也指催化剂使用过程中活化、再生等热处理步骤。如碱性催化剂在使用前需加热脱气,以排除吸附的水分和二氧化碳等。
CAS号:
性质:又称催化剂热加工。指催化剂制备过程中的热处理步骤,如滤饼或浸渍了活性组分的载体的烘干、热分解、焙烧等,也指催化剂使用过程中活化、再生等热处理步骤。如碱性催化剂在使用前需加热脱气,以排除吸附的水分和二氧化碳等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条