1) quick cooling zone
快速冷却带
2) fast cooling
快速冷却
1.
Fast cooling and ultra fast cooling experiments have been carried out on a Nb micro-alloyed steels.
通过对含Nb微合金钢控制轧制后,进行快速冷却+超快速冷却工艺的研究,得到了针状铁素体、板条马氏体及下贝氏体多相组织。
2.
It showed that a fast cooling after drawing was of benefit to dimensional stability, straightness, environmental stress cracking resistance, and strength of the drawn tubes.
数据说明拉伸后的快速冷却有利于管的尺寸稳定和直线度改善。
3.
When leakage occurs in the high pressure heater and the power unit is forced to shutdown for repair,fast cooling should be carried out by controlling outlet water from the dearator tank utilized with the level difference between the deaerator tank and the HP heater.
当高压加热器发生泄漏,机组被迫停运行进行故障抢修时,在原有热力系统设备的基础上,利用除氧器热水箱与高加标高的高度差,通过控制除氧器热水箱出水温度对高压加热器进行快速冷却。
3) rapid cooling
快速冷却
1.
Influence of rapid cooling and diffusion annealing on Sn-Bi-X solder;
快速冷却和扩散退火对Sn-Bi-X焊料的影响
2.
The experiments have been carried out to carefully investigate precipitation of cemenhte from pure iron during rapid cooling.
结果表明:快速冷却不能完全抑制三次渗碳体的析出,且三次渗碳体的拆出形貌(颗粒状、条片状)取决于钢的含碳
3.
in this paper,large section bearing steel bars are carried out the rapid cooling in the water coolers of turbulent tubes.
本文在现场湍流管式水冷器上对大断面轴承钢棒材进行快速冷却的基础上,研究了控冷后轴承钢的组织状态。
4) accelerating cooling
快速冷却
1.
The characteristics of the precipitates in microstructures during accelerating cooling and continuous hot rolling process were analyzed,and the size,distribution and quantities of the particles such as TiS and Ti_4C_2S_2 etc.
利用透射电镜分析了铸坯连续快速冷却及热连轧过程Ti-IF钢中第二相粒子的析出行为特征,将TiS,Ti4C2S2等析出粒子的尺寸、分布及数量分别与传统工艺的析出物进行了分析比较。
2.
The testing of producing 10~18mm gauges plate with recrystallization controlled rolling and accelerating cooling technology was simply introduced.
介绍了利用再结晶型控轧及快速冷却工艺 (RCR +ACC)生产厚 10~ 18mmQ34 5B中厚板的试验研究概况。
5) quick cooling
快速冷却
1.
A lot of cracks and voids are generated in the brazing joint using quick cooling method,which decrease the strength greatly.
采用现有文献使用的充氮快速冷却的方式,导致钎焊接头产生了较多的裂纹和孔洞,使得强度降低;采用改进的缓慢冷却方式,即从钎焊温度到620℃,让其自由冷却,当炉中温度降到620℃时,向炉内充氮气并同时启动风机快速冷却。
6) ultra-fast cooling
超快速冷却
1.
An industrial experiment of developing 590MPa grade dual-phase hot strip steel using laminar cooling + ultra-fast cooling technology on Baotou CSP line was introduced in the present work.
以低C-Mn钢为原料,在包钢薄板坯连铸连轧生产线上,采用层流冷却和超快速冷却工艺,开发出厚度为4~11mm的590MPa级热轧双相钢;组织为铁素体+马氏体,马氏体体积分数为8%~12%;抗拉强度为590~620MPa,屈服强度为385~455MPa,断后总伸长率为30%~35%。
2.
The key to the ultra-fast cooling system is to expand the water jet impingement zone of the hot strip surfaces.
分析了轧后加速冷却过程中带钢表面的局部换热机理,认为冷却系统实现超快速冷却的关键在于扩大带钢表面射流冲击换热区的面积。
3.
The test dual-phase steel of 6mm thickness was produced by thin-slab continuous rolling and two stage cooling process,including of laminar and ultra-fast cooling;The mi- crostructures of the test dual-phase steel are ferrite and martensite,and the volume fraction of martensite is 12%.
介绍了在包钢CSP线上应用超快速冷却工艺开发540MPa级热轧双相钢的工业试验概况;以0。
补充资料:板带轧制压下规程(见板带轧制规程设计)
板带轧制压下规程(见板带轧制规程设计)
draughting schedule for plate and strip rolling
bandai zhazhi yaxia guieheng板带轧制压T规程(draughting,ehedule forplate and strip rolling)见板带札制规程设计。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条