1) LF2407A
LF2407A
1.
Design of the Digital Single-phase On-line UPS Based on LF2407A;
基于LF2407A的数字化单相在线式UPS的设计
2.
Application of Clock CMOS-Chip DS17887 based on DSP—LF2407A;
基于LF2407A的时钟芯片DS17887的应用
3.
Application of Flash Memory 29C256 based on LF2407A DSP;
基于DSP LF2407A的闪存可编程实现技术
2) DSP LF2407A
DSP LF2407A
1.
The motion control system uses DSP LF2407A as the main processor and uses the brushless motor driving chip MC33035 and driving bridge MPM3003 to drive the blushless motor.
运动控制部分采用以DSP LF2407A为主控芯片、以无刷电机专用芯片MC33035和驱动桥MPM3003为电机驱动控制的方案;信息检测系统采用红外传感器来检测环境障碍信息,并安装无线视频设备用以监控机器人运行环境;无线遥控系统采用摇杆式脉宽比例调节方式来实现对机器人的调速及其他运动控制。
3) LF
LF
1.
Appliance of 75 t LF Used in the Production of Stainless Steel in TISCO;
太钢75t LF在0Cr18Ni9不锈钢精炼生产中的应用
2.
Technology and Practice of 60t LF Furnace at Pinggang;
萍钢60t LF炉工艺实践
3.
PRODUCTION OF 65Mn WITH PROCESS OF BOF+LF+CC(EMS);
BOF+LF+CC(EMS)生产65Mn的工艺实践
4) Ladle furnace
LF
1.
Practice for Refining Process of 92 t Ladle Furnace for Tube Bloom Steel J55;
J55管坯钢92t钢包炉(LF)精炼工艺实践
2.
Research and Production of Refining Slag for a 50 t Ladle Furnace;
50t钢包炉(LF)用精炼渣的研制
3.
Mathematical and Hydromechanical Simulation on Fluid Flow in Argon Blowing Process in Ladle Furnace;
LF吹氩过程中钢液流动的数学物理模拟
5) ladle furnace
LF炉
1.
Mathematical simulation of flow field of molten steel in ladle furnace with argon blowing;
LF炉底吹氩时钢液流场的数值模拟
2.
The Finite Element Analysis and Research of Ladle Furnace Buggy s Structure;
LF炉钢包运输台车结构有限元分析与研究
3.
High-performance Q345B plate with a thickness ranging from 8 to 40mm has been successfully produced in a mass-scale with the newly commissioned 120 ton BOF at SISG, via the BOF-ladle furnace(LF)-continuous casting(CC)-2500 mill process route.
文章着重对Al微合金化、LF炉工艺优化提高钢水纯净度和连铸工艺优化攻关进行介绍,并简要介绍连铸坯质量情况。
6) LF furnace
LF炉
1.
Revamp on high pressure vaccuum car system in LF furnace;
LF炉高压真空小车系统改造
2.
Variety steel smelting practice and refining effect analysis in LF furnace process;
LF炉品种钢工艺实践及精炼效果分析
3.
The structure and function of LF furnace are introduced,The suitable steel grades and cost for LF refining furnace are emphasized in this paper.
从电弧炉与LF炉的匹配角度简要介绍了LF炉结构及其功效,着重分析了适宜LF炉精炼的钢种以及LF炉精炼成本。
参考词条
补充资料:antifoam-lf
CAS: 124-13-0
分子式: C8H16O
分子量: 128.21
沸点: 171℃
熔点: 12-15℃
中文名称: 辛醛;羊脂醛
分子式: C8H16O
分子量: 128.21
沸点: 171℃
熔点: 12-15℃
中文名称: 辛醛;羊脂醛
英文名称: Octanal;Octoaldehyde;Caprylic aldehyde;1-octanal;aldehyde c-8;antifoam-lf;c-8 aldehyde;n-caprylaldehyde;n-octaldehyde;n-octanal;n-octyl aldehyde;n-octylal;octanaldehyde
性质描述: 无色液体。沸点163.4℃,81℃(4.26kPa),72℃(2.66kPa),60℃(1.2kPa),相对密度0.827(20/4℃),折光率1.41667(26℃),闪点51℃。易溶于乙醇;乙醚;氯仿,微溶于水,不溶于甘油。
生产方法: 可采用辛醇或辛酸为原料。辛醇在铜铬催化剂存在下经氧化即生成辛醛。采用辛酸生产辛酸的多种方法,例如将辛酸蒸气与过量度的甲酸蒸气混合,于300℃通过氧化钛或氧化锰催化剂,能以90%的收率制得辛醛。
用途: 辛醛有很强的水果香味,在极稀时有令人愉快的甜橙香气,我国 GB 2760-86规定为暂时允许使用的食用香料,主要用于柑橘类香料的调合,在饮料;冰淇淋;糖果;面包等中的用量为1.4-4.4ppm,也可作肥皂;洗涤剂用香料。辛醛也是有机合成的中间体。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。