铝热法

铝热法冶炼高钛铁工艺试验

An investigation on melting ferrotitanium process in thermite method

采用铝热法，以金红石为原料研制65%～75%的高钛铁，取得了最佳工艺技术条件和较好的指标，高钛铁含钛达73.77%，钛的回收率达78.83%。

Developing 65 % ~ 75 % high grade ferrotitanium with rutile as material by thermite method can achieve optimum technological requirements and good index . Titanium content in high grade ferrotitanium reaches 73.77 % , titanium recovery amounts to 78.83 % .

V2O3电铝热法冶炼FeV50的工艺探讨

Technology of thermite method smelting FEV 50 with v_2o_3

铝热法合成TiB2－Al2O3系陶瓷原料反应机理

Reaction mechanism of aluminithermic synthesis of ceramic raw material series TiB_2-Al_2O_3

电解法和铝热法Al-Ti-C中间合金的显微组织研究

Study on Al-Ti-C Master Alloy Made by Electrolysis Process

以铝热法为基础制备了Al2O3W复合材料，探讨了Al2O3含量对复合材料合成的影响。

The effects of corundum content on phase composition and microstructure of Al 2O 3 / W composite prepared by aluminothermic reaction were discussed .

铝热法冶炼FeV（50）的试验研究

Experimental Study on Ferrovanadium 50 Smelting with Aluminothermic Process

降低铝热法金属铬硅含量的探讨

Probe into reducing silicon contents in metallic chromium with thermite method

上部点火铝热法生产FeV50工业试验

Industrial test for producing FEV 50 with top - fired thermit process

提高铝热法生产铬硼合金回收率的探讨

Probe into increasing recovery of Ch rome-boron alloy smelting with thermite method

硅铝热法冶炼钨钼复合铁合金试验

Test on smelting W-Mo compound ferroalloy with Si-Al heating method

铝热法低铝低硅硼铁的研制与生产

Researching and producing low-aluminium and low-silicon ferroboron with thermit process

铝热法冶炼中钛铁工艺研究

Study on manufacturing of medium ferrotitanium by aluminothermic process

铝热法硼合金的脱铝原理及实践

Principle and Practice for dealuminization of boron containing alloys produced from aluminothermic process

炉外铝热法是一种低能耗的金属热冶炼方法。

Aluminothermy is a low-energy-consuming smelting method .

铝热法生产高硅钛铁

Producing high silicon ferrotitanium with thermit method

铝热法熔炼高钛铁的热力学分析及工艺探讨

Discussion on the thermomechanical analysis and process of smelting high grade ferrotitanium in thermit process

铝热法钢包精炼的热模拟实验

Thermal simulant experiments on aluminothermic ladle refining

实践证明，采用金红石铝热法生产高钛铁在技术上是完全可行的。

The practice shows that smelting high grade ferrotitanium with rutile by thermite method is feasible .

铝热法冶炼金属铬

Smelting metal chromium using Aluminothermics

该文主要介绍采用铝热法生产高硅钛铁合金的冶炼工艺原理、工艺技术条件及所制产品的技术经济指标。

It mainly introduces high silicon ferrotitanium smelting process principle with thermit method and technical conditions as wen as technical and economical index of the products .

讨论了铝热法铬硼合金生产工艺中原料处理、渣系、热量等方面对冶炼回收率的影响，并提出了控制方法。

The effects of respects such as material disposal , slag system and heat etc. on recovery are discussed in chrome-boron smelting with thermite method , and the control measures are also put forward .

结合攀枝花钛精矿的特点，探讨了采用铝热法冶炼钛铁时钛回收率低、铝耗量高的原因，并提出了相应的解决措施。

Based on the features of Panzhihua titanium concentrate , the reasons why titanium recovery is low and aluminum consumption is high when ferrotitanium is smelted in alumino-thermic process were analyzed . The measures to solve those problems are put forward .

铝热还原法合成AlON粉体及其热力学分析

Synthesis of AlON Powder by Aluminothermic Reduction and Its Thermodynamic Analysis

结果表明，电解法制备的中间合金C的吸收率明显提高，是相同工艺条件下铝热还原法的1.2倍，解决了C、Ti与铝熔体浸润难的问题；

Compared to alumino-thermic process , the new technology has high carbon recovery , 1.2 times higher than the alumino-thermic method under the same conditions . The difficulty of carbon and aluminum wetting and mixing with aluminum melts has been solved .

铝热离心法重熔球墨铸铁管内表面的研究

Remelting on Inner Surface of Ductile Cast Iron Pipe by SHS CT Process

高铝合金热法炼镁过程中某些热力学性质的研究

Some thermodynamic properties in process of thermal reduction of Mg with high AI Alloy

真空铝热还原法生产金属锶&铝热还原工艺的研究

Preparation of Strontium by Vacuum Aluminothermy Reduction

铝热焊法焊接起重机钢轨接头

Thermit welding of crane rail joint

以铝热还原法合成了MgAl2O4/W复合材料。

MgAl_2O_4 / W composites were fabricated from mixture powder of WO_3 and Al by aluminothermic reducing method .