1·The boiling steel from smelting until the steel mold, toughness, ferrosilicon or aluminum deoxidation.
而沸腾钢从冶炼直至钢模中、韧性、硅铁或铝来脱氧。
2·As alloy additives, ferrosilicon is widely used in low alloy structural steel, alloy structural steel, spring steel, bearing steel, heat - resistant steel and electrical silicon steel.
硅铁作为合金元素加入剂广泛用于低合金结构钢、合结钢、弹簧钢、轴承钢、耐热钢及电工硅钢之中。
3·Our main products include ferroalloys like ferro-phosphorus, ferro-phosphorus micro-powder (ferrous phosphide micro-powder), ferrotitanium micro-powder, ferrosilicon and ferromanganese.
我公司主要产品为磷铁、磷铁微粉(又名磷化铁微粉)、钛铁微粉、硅铁、锰铁等铁合金。
4·The process of smelting low carbon ferrochromium using ferrosilicon as reducer instead of silicochromium alloy is introduced.
本文介绍了使用硅铁代替硅铬合金作还原剂,冶炼低碳铬铁的工艺方法。
5·It introduces preventive measures and treatment methods for 25mva ferrosilicon furnace's electrode accidents. It is an example for relative furnace's electrode maintenance.
介绍了25 mva硅铁电炉电极事故的预防措施和处理方法,对相关电炉的电极维护具有借鉴意义。
6·Ratio of carbon reducing scheelite should be below 30% when mixture of carbon and ferrosilicon was used as reductant.
硅铁和碳混合还原剂还原白钨矿时,碳还原白钨矿比例控制在30%以下能取得较好的还原效果。
7·The effects of technical factors on melting process of ferrosilicon in liquid iron are studied by using numerical simulation.
用数值模拟方法研究了工艺因素对硅铁在铁液中熔化过程的影响。
8·This paper is focused on technical analysis of the new process using 30% Baotou RE concentrate to produce RE ferrosilicon and tries to confirm the rationality of the finished new process.
本文就包头30 %稀土精矿直接入电弧炉冶炼稀土硅铁合金新工艺的实践,试图从技术上加以分析探讨,以解释这一业已完成的新工艺路线的合理性。
9·The diffusive process of rare earth metals and alloys as well as of ferrosilicon alloys in commercial molten iron is investigated.
本文研究了稀土金属及其合金、硅铁合金在工业铁水中的扩散过程。
10·Two separate periods are identified:the iron shell period and melting period, after immersion of ferrosilicon into liquid iron.
结果表明:硅铁浸入铁液至完全熔化分为两个时期,即铁壳期和熔化期;