熔炼炉

rónɡ liàn lú
  • smelting furnace
熔炼炉熔炼炉
  1. 论数字图像处理技术在中频熔炼炉控制中的应用

    Application of Digital Image Processing Technique in the Control of MF Smelting Furnace

  2. 铜合成熔炼炉结构设计特点

    Structure Design Features of Copper-flash Smelting Furnace

  3. 基于DSP设计的中频感应熔炼炉功率分配器

    Power-distributor of Middle-frequency Inductive Melting Oven Designed by DSP

  4. 并以热平衡计算原理和UML(UnifiedMOdelingLanguage)建模为基础,编写了蓄热式铝熔炼炉热平衡计算软件。

    Based on the principle of heat balance calculation and UML ( Unified Modeling Language ), heat balance calculation software for regenerative aluminum melting furnaces was developed .

  5. 采用中频真空感应熔炼炉、X射线衍射仪、金相显微镜、电子探针、显微硬度计等实验分析方法,研究了稀土金属铈与低熔点金属锡在钢中的相互作用。

    The interaction between the cerium and tin in steel was studied by vacuum induction melting , Xray diffraction , optical microscopy , electronic probe microscopy analysis , and microhardness tester .

  6. 详细介绍了ZGL-0.1多功能真空感应熔炼炉的结构、性能、特点及其用途。

    Construction , characteristics and applications of ZGL-0.1 model multipurpose vacuum induction melting furnace are described in detail .

  7. S7-200PLC在铝熔炼炉及其除尘系统的应用

    Application of S7-200 PLC in Removing Dust of Casting Aluminum Furnace

  8. 介绍了10L下铸式真空感应熔炼炉的结构及组成,指出了安装和热负荷试车过程中存在的问题及解决方法,设计同类电炉时可作为参考。

    This paper introduces the construction and composition of 10L vacuum induction melting furnace , bottom pour-ing and points out some problems during adjusting . It is a reference when designing the same type furnace .

  9. 结果表明:采用真空工频感应熔炼炉,在氩气保护状态下,获得了不同晶粒细化剂含量的LA141镁锂合金。

    The results show that : LA141 alloys with different additions of grain refiner are successfully produced by using frequency induction furnace , protecting by argon .

  10. 在该工艺11h的生产周期内,熔炼炉烟气二氧化硫浓度在0.1%-12%波动,因此无法用传统的硫酸装置生产硫酸。

    The sulphur dioxide concentration in the furnace off-gases in this process varies from 0 . 1 % to 12 % in a cycle time of 11 hrs . Treatment of this gas to produce sulphuric acid is not feasible in a conventional sulphuric acid plant .

  11. 一起铝熔炼炉爆炸事故分析

    Analysis of an Explosion of Aluminium Melting Furnace and Its Prevention

  12. QJ-A型真空加料卡具在真空熔炼炉上的应用

    The Clamp Adding Materials of Model QJ-A Applied to Vacuum Melting Furnace

  13. 金川镍闪速熔炼炉现状及前景展望

    The Status and Foreground Prospect of Jinchuan Nickel Flash Furnace

  14. 玻璃熔炼炉自动加料装置中的称料控制器

    The weigh batcher controller in the automatic charging device of glass smelter

  15. 连续式双室铝熔化保温炉的研究设计中频无心感应熔炼炉

    Research and Design of Continuous Double Chamber Aluminizing Maintaining Furnace

  16. 用间歇操作铅熔炼炉烟气连续生产硫酸

    Using off-gas from a batch-operated lead smelter in continuous sulphuric acid production

  17. 电子束熔炼炉温度检测及控制系统研制

    Temperature Detection of Electron Beam Melting Furnace and Study of Controlling System

  18. 熔炼炉电流平衡控制系统设计与实现

    Design of the Current Blance Control System for the Smelter

  19. 铸铁熔炼炉前特性分析仪的研究与实现

    Research and Implementation on Melting Characteristics Analyzer of Cast Iron

  20. 中频感应熔炼炉与保温炉的电源频率选择及功率计算

    Frequency Selection of Medium Frequency Melting and Holding Furnace and Power Calculation

  21. 工频熔炼炉熔炼废杂铜的过程中会产生大量废烟气。

    A lot of smoke is produced during the frequency melting process .

  22. 工频无心感应熔炼炉跌落式熔断器无银熔断件保护特性的研究

    Research into Protection Characteristic of No-silver Fuse-links of Drop-out Fuse

  23. 电磁搅拌器在75吨铝合金熔炼炉的应用

    Application of Electromagnetic Stirrer in 75t Aluminum Alloy Melting Furnace

  24. 矩形六电极炼镍矿热熔炼炉电场的模型试验

    A model experiment on the electric field of six-electrode matrix nickel matte smelter

  25. 重庆铝制品厂铝熔炼炉的计算机控制装置

    The Computer Control Device for Aluminium Melting Furnace of Chongqing Aluminium Products Works

  26. 工频熔炼炉能量平衡分析

    Energy Balance Analysis on Mains Frequency Melting Furnace

  27. 新型电子束熔炼炉的研制

    Development on the new vacuum electron beam furnace

  28. 本文介绍工频感应熔炼炉优化设计的编程。

    The programs of the optimum design on mains induction melting furnaces are introduced .

  29. 基于SLC5/04的铝铸轧熔炼炉控制系统

    Application of SLC 5 / 04 controller in the Aluminum casting furnace control system

  30. 低能耗低污染铝合金熔炼炉的设计

    Design on a Furnace of Low Energy Consumption and Low Environmental Pollution in Smelting Aluminium-Alloy