1) sinter
烧结球团
2) sinter
烧结
1.
The tractic and production practice of sinter systen answer chance of iron ore resource in angang;
安钢烧结应对铁矿原料变化的对策及生产实践
2.
Design of the Control Program for Advanced Silicon Nitride Ceramic Sintering Plant;
氮化硅陶瓷烧结设备的智能化控制程序设计
3.
Practice on reduction of solid fuel consumption in sintering in WISCO and trend of development;
降低武钢烧结固体燃耗的实践及发展方向
3) agglomeration
烧结
1.
The Effects of Agglomeration Technology on Thyristor Parameters;
烧结工艺对可控硅参数的影响
2.
In order to study the agglomeration craft of aluminium base complex material,we use high-temperature photon microscope to observe in situ agglomeration of Al-Mg and Al-Cu.
为了研究铝基复合材料烧结工艺,利用高温光学显微镜对Al-Mg和Al-Cu等二元合金系进行了原位烧结观察。
3.
Aim at the invalidation factors of airflow distribute plate of electric dust collector in agglomeration plant,blaze spraying method was applied to wear resistant coating,by this means,the wear resistant and corrupt resistant performance of airflow distribute plate was improved,and its use life has been prolonged.
针对烧结电除尘气流分布板的失效原因,采用火焰喷涂耐磨涂层的方法,很好地解决了气流分布板磨损和腐蚀问题,实现了该备件的长寿化。
4) sintered
烧结
1.
We also study the effect of different composition crude materials and different sintered temperatures on the far-infrared absorbance.
试验表明,TiO_2-莫来石体系陶瓷材料的远红外吸收性能,随着烧结温度的升高明显降低:TiO_2能有效促进材料烧结、降低烧结温度,提高材料的红外吸收性能。
2.
The powder of different sintered time were tested by XRD,DTA and SEM.
研究了一种高温超导氧化物YBCO先驱粉末BaCuO2(011粉末)的制备新工艺,在烧结过程中把烧结和研磨工艺结合应用,对不同烧结时间的粉末进行了XRD和DTA分析及SEM观测。
3.
By optimizing the alloy compositions and improving the alloy ingot technique,powder-preparing technique,magnetically-aligning technique and sintering technique,N45H sintered Nd-Fe-B magnets have been successfully mass-produced from common commercially-available Nd,Dy,Tb,Fe,Nb,Cu,Al metals and B-Fe master alloy.
通过优化合金成分设计和改进合金铸锭技术、合金粉末制备技术、磁场取向成型技术以及烧结技术 ,应用全部国产设备与国内通用的工业生产烧结 Nd— Fe—B永磁的原材料 ,避免使用镓等稀有贵重金属元素 ,实现了 N4 5 H烧结 Nd— Fe—B磁体的工业化生产。
5) sintering
烧结
1.
Effect of Blending Meishan Iron Ore Concentrate on Sintering Production;
配加梅山铁精矿对烧结生产的影响
2.
Analysis on Energy Saving Technology of Sintering Production;
试析烧结生产节能降耗技术
3.
Experimental Research on Steel Slag for Sintering;
钢渣尾渣用于烧结的试验研究
6) sintering process
烧结
1.
Research on the sintering process of 2:17 type Sm-Co radially oriental integral magnetic ring;
2:17型Sm-Co整体辐向永磁环烧结工艺的研究
2.
The air leakage on sintering machine affects the technological and economical indexes of sintering process.
烧结机漏风问题直接影响烧结过程的各项技术经济指标。
3.
The status of energy consumption and environment at protection,some technologies of energy saving and environmental protection in sintering process are introduced in this paper.
阐述了烧结工艺的能耗及环保的现状 ,并介绍了目前常用的一些节能与环保技术 ,突出了节能、环保在现代烧结工艺中的重要地
参考词条
补充资料:烧结、球团成品率
烧结、球团成品率
yield of finished product of sintering and pelletizing
shaoj浦e qiutuan ehengPinl。烧结、球团成品率(yield。f finished produetof sinteringand pelletizing)烧结成品率为干烧结料〔其中包括返矿)的成品烧结矿产出率;球团成品率为干球团料(其中包括返矿)的成品球团矿产出率。用公式表示为p一(Q。/Q:)x10o%。尸为烧结料或球团料的成品率,%;Q:为成品烧结矿或球团矿的数量,t;Q:为干烧结料或干球团料的数量,t。 烧结料和球团料的成品率,实为二者的收得率。在铁矿石造块工艺操作稳定的条件下,返矿量基本不变,P值大小仅与烧结料或球团料的烧损量有关,配人烧损量大的物料多,p值小;反之,尸值大。因此,造块配料的矿石种类、燃料和熔荆的数量,对尸值都有直接影响。在原料条件和造块成分确定之后,烧损量变化不大,尸值取决于造块工艺操作水平,凡能提高烧结矿和球团矿强度和降低返矿量的操作,都将使QZ增加,Ql减少,结果尸值升高。提高烧结料和球团料的成品率,是提高二者生产率和降低能耗的重要途径之一。此外,还可以用尸值变化情况检验操作制度的合理性。 除烧结料成品率外,还有烧结矿成品率的指标,即单位质量烧结饼(即全部烧结残存物)中成品烧结矿的数量。它同烧结矿强度直接有关。 (朱家骥)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。