1) green density
压坯密度
1.
Warm compaction behavior of 316L stainless steel was investigated, influences of processing parameters of warm compaction on green density of 316L stainless steel were studied.
研究316L不锈钢的温压行为,分析温压工艺参数对压坯密度的影响。
2.
It is found that the green density and sintered density of YBa_2Cu_3O_(7-δ) powders with different granularity varied differently with the variation of pressure.
结果表明,不同粒度YBaCuO超导粉体的压坯密度、烧结密度(即烧结前后的致密度)随压力的变化规律不同。
3.
Influences of processing parameters of warm compaction on green density of 420 stainless steel were studied.
对420不锈钢粉末进行温压,探索温压工艺参数对压坯密度的影响,并对温压与室温模压(添加0。
2) compact density
压坯密度
1.
The effect of compact density on combustion synthesis of Fe-V-C mixture powders based in electric field was studied using Gleeble thermal simulation equipment.
采用Gleeble热模拟机,在电场和大热流密度作用下,研究压坯密度对Fe-V-C三元系粉末压坯燃烧合成的影响。
2.
Using Gleeble-1500D thermal simulation equipment, the effect of compact density on the low temperature combustion synthesis process of the compact of 55wt%(Ti+C)-45wt%Fe mixture powders was studied.
采用Gleeble-1500D 热模拟机,在电场和大热流密度作用下,研究压坯密度对55%(Ti+C)-45%Fe(质量分数)粉末压坯低温燃烧合成过程的影响。
3.
The paper analyzed the effect of sintering temperature,ball milling method and compact density on the density of MoSi2 disperslion-strengthened copper alloy.
分析了烧结温度、球磨方式和压坯密度对MoSi2弥散强化铜合金烧结密度的影响。
3) high density compact
高密度压坯
4) pressed density,compact density,green density
压坯密度<冶>
5) rough density
毛坯密度
6) compact density
生坯密度
1.
Associated with the massproduction of sintered Nd-Fe-B magnets currently in China,an investigation is presented in this papers of the impact of compact density on microstructure and magnetic properties of sintered Nd-Fe-B magnets.
结合国内烧结 Nd— Fe— B磁体工业生产过程 ,研究了压制成型时生坯密度变化对烧结 Nd—Fe— B磁体致密化程度、显微组织、取向度与磁性能的影响。
2.
Associated with the mass-production of sintered Nd-Fe-B magnets currently in China, an investigation is presented in this paper of the impact of compact density on microstructure and magnetic properties of sintered Nd-Fe-B magnets.
结合国内烧结Nd-Fe-B磁体工业生产过程,研究了压制成型生坯密度对烧结Nd-Fe-B磁体致密化程度、显微组织、取向度及磁性能的影响。
补充资料:板坯初轧压下规程
板坯初轧压下规程
draughting schedule of slabbing mill
banPi ehuzha yaxia guieheng板坯初轧压T规程(draughting Sehedule。fslabbing mill)在初轧机上将扁钢锭轧制成板坯的变形工艺方案。包括轧制道次的确定、立轧和平轧道次的安排、各道压下量的分配和宽展量的计算(见宽展计算)。板坯的轧制可以在方一板坯初轧机和板坯初乳机上进行,它们的压下规程也各不相同。板坯初轧机的轧辊孔型和立辊的配置如图所示。 阵茸 扮色-v_H 土十于十一H一V 令甲万~‘一‘ b 板坯初轧初孔型和立辊布置图 a一方一板坯初轧机的孔型;b一板坯初轧机平立辊布置 I、l、互、份一孔型号:V一工辊;H平辊 板坯初轧压下规程的制定要与初轧孔型(见初轧孔型设计)和速度规程(见板坯初轧速度规程)相匹配,以保证产品的产量、质量、成坯率,并使轧辊和主电机不超负荷。 方一板坯初轧机压下规程的制定方一板坯初轧机借助上轧辊的提升实现板坯的立轧,从而保证侧边质量和头、中、尾板宽一致。在轧辊辊身上除设有平轧孔外,尚设有专门的立轧孔。有时在方一板坯初轧机上轧制方坯的孔型和轧制板坯的立轧孔共用。板坯的立轧一般分为3个阶段:首次立轧在平轧孔内进行,目的是去除钢锭大面氧化铁皮、消除钢锭侧面锥度和改善侧面铸造组织,以保证板坯质量;中间立轧在立轧孔内进行,目的是防止平轧时板坯侧边双鼓形的过度积累使板坯侧面产生折叠,同时也有减少板坯宽度的作用(如用同一种扁钢锭轧制不同宽度板坯时);最后立轧的目的是控制板坯宽度,保证侧边平直。当立轧孔型宽度和成品板坯厚度相适应时,板坯以立轧结束轧制,然后靠推床翻倒后输往大剪剪切。当立轧孔型宽度大于成品板坯厚度时,板坯立轧后翻钢,由平轧孔轧出。此时板坯侧面将呈单鼓形,板坯的头、中尾宽度差也将比立轧出成品时大。 制定方一板坯初轧机压下规程时,先要确定立轧方式和立轧道次枷,然后根据轧辊强度和电机能力确定平轧道次nB。总轧制道次为:”一+·一十仁全缨绪~式中从,为平均压下量;H、B和h、b分别为钢锭大头和板坯的厚度和宽度;儿为板坯立轧时的宽展来数。为保证板坯侧边质量,钢锭宽度应大于成品板坯宽度150~200mm。求出之n:应圆整为整数,当单架初轧机轧制时n:为奇数,双机架初轧机轧制时n:为偶数。
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参考词条