氮化炉

LD3-200/1000型辉光离子氮化炉的改造

Reformation of LD_3-200 / 1000 Type Glow Ion Nitriding Furnace

在实验室工作基础上于工业氮化炉内于1450℃左右氮化烧成，生产出强度高，热震稳定性和抗渣性能良好的SiAlON结合刚玉质透气砖。

The SiAlON-bonded corundum purging plugs with high strength , good thermal shock resistance and slag resistance were produced fired at 1450 ℃ in industrial nitriding furnace based on the laboratory experiment .

Si3N4粉连续生产用氮化炉

Nitriding furnace for continuous production of Si_3N_4 powder

Si3N4-SiC真空氮化炉三相负载不对称时的功率分析

Analysis on the Power of Asymmetric Three Phase Load in Si_3N_4 - SiC Vacuum Nitriding Kiln

离子氮化炉的精确测控温

Accurate Measurement and Control of the Temperature of Ionic Nitriding Furnace

离子氮化炉保温层的设计使用和热工分析

Design and Heat Transmission Analyses of Insulating Layer in Ionic Nitriding Furnace

深井式真空氮化炉及工艺

Vacuum nitriding furnace of deep pit type and its technology

大型氮化炉机械传动装置及真空系统的设计

Design of mechanical drive devices and their vaccum system for large nitration furnace

利用离子氮化炉进行钢的离子渗铬。

The ionic chromizing of steel is done by means of ionitriding furnace .

氮化炉及干燥窑微机控制系统

Microcomputer Control System for Nitrogen Furnaces and Dry Kilns

新型节能氮化炉热管式热风炉

The New Type Nitriding Furnace For Energy-Saving

微型计算机在离子氮化炉中的应用

Application of Computer to Ionic Nitriding Furnace

在普通辉光放电离子氮化炉中用自制的渗硼膏剂进行了渗硼试验。

Glow discharge paste boronizing was conducted in a normal glow discharge ion nitriding furnace .

本文介绍了多台氮化炉及干燥窑的微机控制系统设计。

This paper presents the design of microcomputer control system for several nitrogen furnaces and dry kilns .

无石棉耐高温硅酸钙为炉衬的氮化炉结构特点及节能效果分析

Analysis of the Structural Characteristics and Energy-saving Effects of the Nitriding Furnace Lined with Asbestos-free High-temperature Resistant Calcium Silicate Insulation

本文介绍了处理细长轴件的低真空氮化炉的结构特点和热处理工艺。

The article introduces the structure feature and heat treatment technology of a low vacuum nitriding furnace for treating axle workpieces .

介绍了辉光离子氮化炉的工作原理、改造方案及效果等。

Described in the paper are the working principle , technical modification solution and modification result of the grow plasma nitriding furnace .

对氮化炉用密封电机的结构、磁场特点进行了分析，并建立了磁场的数学模型。

The structure and magnetic field feature of seal motor used in nitriding furnace is analyzed , and the mathematical model for the magnetic field is set up .

通过改造现有辉光离子氮化炉及工艺试验，扩大离子氮化的氮化范围，解决离子氮化后的氧化及变形问题。

By remaking now available glow ion nitrogen furnace and technological test , the range of ion nitrogen is enlarged , the questions of oxide and being out of shape are solved .

设计制造了一台结构优良的氮化炉，使用结果表明，其性能稳定，节能效果优良。

A good nitriding furnace in structures was designed and made . The results show that the properties of this kind of nitriding furnace are stable and the effects of energy-saving are excellent .

连续烧成氮化炉是理想的氮化烧结设备，可以满足大规模连续生产和低能耗的要求，有推广应用的价值。

The continuous burnt nitrogen furnace is the perfect equipment of burnt nitrogen . It can satisfied the request of the extensive continuous production and low energy loss , so it is worthy to popularize application .

采用金相组织分析、显微硬度测试以及普通辉光离子氮化炉等方法和设备，研究经不同方式预处理的氨气对离子氮化速度和氮化层组织的影响。

In this paper , the effect of various pretreatment of ammonia on the nitriding rate and structure of nitriding layer in ion-nitriding has been investigated by means of examination of optical microscope , micro-hardness and general ion-nitriding furnace .

本文主要根据国内离子氮化炉炉温不均测温不准的问题，与一般热处理炉的温度场，测温特点进行了分析比较，阐明了离子氮化炉的几个特点。

In view of unevenness of furnace temperature and inaccuracy of temperature measurement of ionitriding furnaces made in China , this article makes an analysis of them and compared with ordinary heat-treatment furnaces in their temperature fields and features of temperature measurement .

LPCVD氮化硅炉管生产工艺中颗粒污染的研究低碳低硅中宽冷轧无取向电工钢带生产初探

LPCVD Nitrides Furnace Process Particle Improvement Preliminary Research on Production Low Carbon Low Silicon Non-oriented Electrical Silicon Steel Mid-wide Strip

微机在氮化和渗碳炉及机组上的应用

Applications of Microcomputer in Nitriding and Carburizing Furnace Groups

利用硅和氮直接合成氮化硅，并用其作为结合相生产氮化硅-碳化硅制品时，氮化炉中水蒸气浓度过大（＞0.7%）的话，对制品的质量会产生诸多不良影响。

If the aqueous vapour consistence is too high (> 0 . 7 % ), it is harmful to the sintering products in the nitriding furnace , when silicon nitride bonded silicon carbide products are synthesized by nitridation of silicon .