热切割

rè qiē ɡē
  • thermal cutting;hot cutting
热切割热切割
  1. 该系统是基于OTCAX-MV6机器人在平面热切割领域,尤其是在空间热切割领域的典型应用系统。

    This system is based on OTC the AX-MV6 robot in the plane hot cutting domain , particularly in spatial hot cutting domain model application system .

  2. 该补偿模块可用于其他热切割机的补偿。

    This compensation module can be used in other hot cutting machine .

  3. 本文介绍了运动控制卡MPC02的功能结构和主要特性,阐述了一种基于MPC02运动控制卡的通用式热切割数控系统。

    This paper introduce the mainly functions and characteristics of the motion controller MPC02 , develops the common INC system for torch-cutting machine based on MPC02 motion controller .

  4. 国内自动化热切割技术发展态势分析

    Development situation of domestic automatic thermal cutting technology

  5. 数控火焰等离子切割是一种先进的热切割技术。

    The NC flame and plasma arc cutting is an advanced heating cutting technique .

  6. 油库在用设备设施焊接和热切割作业方法

    The Welding and Thermal Cutting Operation Method of Oil Depot Equipments and Facilities in Use

  7. 对双相不锈钢进行热切割应该仅限于等离子弧切割方法。

    For duplex stainless steel thermal cutting shall be limited to the plasma arc method .

  8. 任何材料经过热切割后,必须进行表面清理直到露出材料底色为止。

    Any material , which are cut by thermal process , must be dressed back to clean metal .

  9. 近年来,热切割技术发展迅速,尤其是等离子切割技术,在切割炬结构设计、消耗品寿命进步、以及控制方面都取得了很大进步,扩大了其应用面。

    Some kinds of thermal cutting methods and their using situation as well as the current development of plasma cutting technique are described in this paper .

  10. 概述了自动化热切割技术及其在国内的应用现状,并揭示了未来先进切割技术的发展趋势。

    This article summarizes the automatic thermal cutting technology and the actuality of application in China , shows the development trend of the future modern cutting technology .

  11. 钢板热切割与焊接在工业生产中的应用非常广泛,如何提高切割和焊接精度、效率一直是研究的热点领域之一。

    Steel plate cutting and welding are widely used in industries . How to increase cutting precision and efficiency has been one of the most popular research fields .

  12. 研究了水下熔化极电弧热切割工艺参数对切口成形的影响,分析了影响水下切割电弧稳定性的因素。

    The effect of underwater consumable electrode arc cutting process parameters on kerf shape was investigated , and the governing factors of underwater cutting arc stability was analyzed in this research .

  13. 激光切割是一种新兴的热切割方式,具有高精度、高效率、低污染等优点,已经成为热切割技术的发展热点之一。

    Laser cutting is a new method of thermal cutting which has the strengths of high precision , efficiency and low pollution . Now it becomes one of the hotspots of thermal cutting technology .

  14. 建立了热切割过程模型,通过求解切割前沿的能量平衡方程,找到了切割过程中热传导损失及热影响区宽度与切割工艺参数之间的数学关系。

    A mathematical model is founded to estimate heat conduction loss in laser cutting . By solving the energy balance equation in the cutting front , simple and accurate correlations are found for the conduction loss and thickness of the heat affected zone ( HAZ ) .

  15. 热凝切割术在腹部外科的临床应用研究

    THE ELECTROHEAT HEMOSTATIC SCALPEL AND CLINICAL APPLICATION Application of Hemostatic Scalpel in Abdominal Surgery

  16. 热凝切割刀应用于剖腹术的随机化对照研究电热手术刀在妇产科手术中的应用

    Randomized comparative study of hemostatic scalpel in abdominal surgery Application of Hemostatic Scalpel in Operations in Obstetrics and Gynecology

  17. 雷射热裂切割法具有加工速度快、切割面平整及热残留应力低等优点,近年来已逐渐取代传统钻石刀切割研磨法成为光电产业液晶玻璃基板加工主流。

    The thermal fracture cutting technology for brittle materials has become the crucial technology for LCD glass substrate cutting to meet the low residual thermal stresses requirement .

  18. 本文通过对当前液晶显示行业中关键基础材料TFT-LCD超薄玻璃基板的激光切割方法的介绍,阐述了一种新颖的针对玻璃等易脆材料的激光热应力切割技术。

    This paper introduces a method of laser cutting brittle materials . specifically TFT-LCD display glass substrates . under the action of thermal tensile stresses .

  19. 本文恼述我国中、高功率CO2激光器及加工机发展历程,列举了其在热处理、切割与焊接方面应用现状,介绍了技术引进及国际合作情况。

    In this paper capsule history about development of powerful CO_2 lasers and microprocessor-controlled positioning systems in China are described , and listed some examples in applications , including heat treatment , cutting and welding , and the situation of importing technology and international cooperation are introduced .

  20. 钠钙玻璃板激光热应力切割过程的有限元仿真

    Finite element simulation of laser-controlled thermal stress separation of soda-lime glass plate

  21. 脆性材料激光热应力切割的仿真与路径控制研究

    Simulation and Control of Laser-Controlled Separation of Brittle Materials

  22. 激光热应力切割玻璃实验与分析

    Experimental Analysis of Glass Cutting by Laser Thermal Stress

  23. 进行了白色、黑色氧化锆陶瓷、氧化铝陶瓷、可加工陶瓷的激光热裂法切割试验。

    Experimental research on white and black Zirconia ceramic , Alumina ceramic and a kind of machinable ceramic were cutting .

  24. 实验证明,激光热应力切割玻璃的最佳速度是400mm/s。

    The best pace of the laser thermal stress cutting is 400 mm / s which is testified by the experiment .

  25. 陶瓷的激光热裂法切割技术,具有加工高效、切割质量好、加工环境清洁等特点。

    The thermal crack technology has many advantages , Such as high efficiency , high cutting quality and cleaning machining environment .

  26. 激光热应力切割技术通过激光束切割材料表面时引起的温度场梯度变化产生热应力,诱导并控制裂纹扩展,从而分割材料,是对玻璃、陶瓷等脆性材料切割的有效方法。

    The laser-controlled thermal stress cutting induces and controls the crack propagation by using the thermal stress which is caused by the surface temperature field gradient in the laser cutting . And it is an effective manner to split the glass , ceramics and other brittle materials .

  27. 水中等离子弧切割具有切割效率高,热变形小,切割时噪音低、粉尘少、弧光辐射低等优点,因此在实际工业中得到了广泛应用。

    With the advantages of high efficiency , low thermal distortion and low noise , little dust and low arc radiation , underwater plasma arc cutting technology has been widely used in industry .