1) Ni base self fluxing alloy
镍基自熔性合金
1.
The Ni base self fluxing alloy is sprayed on steel by oxy acetylene flame.
采用氧 -乙炔火焰在钢基体上喷焊镍基自熔性合金粉末 ,就其喷焊层在海水环境下的耐蚀性进行了系统的研究。
2) Ni-based self-fluxing alloy powder
镍基自熔性合金粉末
1.
The Ni-based self-fluxing alloy powder coposite coating was produced on the substrate of ferrite and pearite base gray iron by the general electrical resistance furnace with graphite protection successfully.
用普通电阻炉加石墨保护的方法成功地在铁素体基灰铸铁及珠光体基灰铸铁基体上制备了镍基自熔性合金粉末复合材料。
3) nickel-base
镍基
1.
Recent Progress in the Research on Nickel-base Composite Coatings;
镍基复合镀层研究的最新进展
2.
In this paper,the research achievements on self-lubricating nickel-based composite coatings in recent years are overviewed.
本文主要对近几年国内外在镍基自润滑复合镀层方面取得的研究成果进行了概述。
3.
It shows that CaF2 is the major lubricant during friction process,The nickel-base composite has good high-temperature self-lubrication due to the forming of CaF2 lubricating film and transferring film on the friction surfaces.
本文对一种新型热压Ni-Cu-CaF_2自润滑材料的摩擦学特性进行了研究,结果表明,在摩擦过程中,CaF_2是主要的固体润滑剂,由于CaF_2能在摩擦表面形成润滑膜和转移膜,从而使得这种镍基复合材料具有良好的高温自润滑性能。
4) nickel-based
镍基
1.
Solidification cracking is a critical problem during the welding of nickel-based corrosion-resistance materials.
镍基耐蚀材料的焊接结晶裂纹是该类材料焊接性研究中的关键性问题。
2.
In this paper,the discovery of a novel amorphous skeletal nickel-based alloy(SRNA) and its use in magnetically stabilized bed (MSB) is introduced.
报道了开发镍基非晶态合金加氢催化剂的实验室研究、中试研究及工业应用研究结果。
5) Nickel base
镍基
1.
Determination of Trace B in Nickel Base,Iron-Nickel Base High Temperature Alloy and Structure Steel;
ICP-AES法测定镍基、铁镍基高温合金与结构钢中的微量硼
2.
Preparation and performance of nickel based catalyst for first-stage hydrogenation of pyroysis gasoline;
镍基裂解汽油一段加氢催化剂的制备及性能
3.
The welding process of nickel base welding wire for tube to tube sheet used in HP heater of 330 MW and above power unit has been described in the article.
文章介绍了330MW及以上机组高压加热器管子与管板采用镍基焊丝的焊接工艺。
6) nickel-based alloy
镍基合金
1.
Studies of static recrystallization of new nickel-based alloy;
新型镍基合金静态再结晶规律研究
2.
The preparation for nickel-based alloys coating as institution of electro-plating brass coating on Q235 steel base used in metal rubber compound products is investigated.
研究用于金属橡胶复合制品的Q235钢基体上制备替代电镀黄铜层的化学镀镍基合金层。
参考词条
补充资料:自熔性球团矿
自熔性球团矿
fluxed pellet
2 1 rongx旧9 qiutuonkuang自熔性球团矿(fluxed pellet)碱度(Cao/5102)为。.8一1 .2的球团矿。单独用作高炉原料时,可以不加或少加熔剂。自熔性球团矿一般含铁62%左右,并含有CaO、MgO、5102、A12O3等,用同样的细铁精矿生产的自熔性球团矿与酸性球团矿相比较,前者含铁量较低、含硫较高。自熔性球团矿的气孔率较高,一般在25%左右,强度较低,但单个球的抗压强度也能达到Z000N以上,转鼓指数可达95%(150标准);真密度与原料的含铁量和球团矿的碱度有关,在4.5左右;视密度与气孔率关系密切在3.4左右。结晶良好的自熔性球团矿呈钢灰色,条痕为红褐色。 自熔性球团矿的矿物组成和结构比较复杂,但仍以赤铁矿(F eZO3)为主,赤铁矿连晶是其固结的基本形式。铁酸钙(C ao·FeZO3)为主要的私结相。少量的硅灰石(CaO·5102)和正硅酸钙(ZCaO·510。)分布在赤铁矿、铁酸钙颗粒之间的渣相中。由于自熔性球团矿液相较多,受表面张力的作用,气孔多呈圆形,且比酸性球团矿的气孔大,气孔率也较高,因而强度较低。但是仍能满足运输、贮存和高炉冶炼工艺的要求。它的还原性好,除了气孔率较高的原因外,它的主要矿物赤铁矿和铁酸钙都是易还原的矿物。特别是高温还原性明显地优于酸性球团矿。实验研究表明:自熔性球团矿在高温下(>1200℃)还原时,试样的表面与中心同时出现金属铁,铁酸钙被还原时析出的CaO与510:结合,形成正硅酸钙(ZCaO·5102),从而避免了510:与FeO形成大量的液态渣相,并提高其还原性,试样中5102含量愈低,其高温还原性愈好。自熔性球团矿的还原膨胀率较高,但只要含碱金属不高,焙烧制度适宜,其还原膨胀率可以控制在允许的范围之内(不大于20%)。自熔性球团矿的焙烧温度区间较窄,对焙烧工艺制度要求严格,单位产品的燃料消耗较高。 (孔令坛)
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