1)  fire temperature
火温
2)  ignition temperature
着火温度
1.
KCl and NaCl on ignition temperature,combustion characteristics and area of heat liberation of high ash coal (HAC) is investigated by thermogrametric analysis.
用热重分析方法对比研究了Ca(NO_3)_2,KCl和NaCl对高灰分煤(HAC)着火温度、燃烧特性指数和放热面积的影响。
2.
The effect of different catalysts on the slime ignition temperature,burning completely temperature,and area of heating value are compared,The results show that catalysts can decrease the ignition temperature and burning completely temperature,increase the quantity of heat releasing during combustion,and the catalytic effect of the TF catalyst is better than KNO 3 catalyst.
对比研究了硝酸钾催化剂及 TF配方助燃催化剂对兖州煤泥着火温度、燃尽温度和放热面积的影响 。
3.
5% in a slurrying process, the ignition temperature of coal is reduced from 582℃ to 576℃ and the burnout efficiency of fixed carbon is promoted from 91.
用热重法研究了不同条件下电石渣的催化煤燃烧特性,发现电石渣对晋城煤的着火温度和固定碳燃尽率都具有一定的促进作用,而且随添加量的增加助燃作用增强。
3)  tempering temperature
回火温度
1.
Effects of tempering temperature on the microstructures and properties of vessel steel with high strength;
火温度对高强度容器钢组织结构与性能的影响
2.
Effect of Tempering Temperature on Structure and Mechanical Properties of Steel 30CrMnSiNi2A;
火温度对30CrMnSiNi2A钢组织和性能的影响
3.
Effect of Tempering Temperature on Microstructure of Steel ZG0Cr13Mn8N;
火温度对ZG0Cr13Mn8N钢显微组织的影响
4)  quenching temperature
淬火温度
1.
The effects of quenching temperatures on wear resistance of 3Cr2W8V steel were studied.
采用销盘式高温磨损试验机对3Cr2W8V钢进行高温磨损试验,研究了淬火温度对3Cr2W8V钢磨损性能的影响,采用SEM、EDS、XRD分析磨损表层成分、形貌和结构,探讨高温磨损机制。
2.
Martensite is getting coarser and the proportion of dislocation to twin is up first and down later with quenching temperature rising.
随淬火温度升高,马氏体逐渐粗化,马氏体亚结构中位错对孪晶的比例先升后降,890℃时获得完全位错亚结构。
3.
Under the condition of water cooling quenching,the influence of quenching temperature on microscopic structure and macroscopic hardness of Fe-B-C casting alloy which contents 0.
在水冷淬火条件下,研究了淬火温度对含0。
5)  annealing temperature
退火温度
1.
Effect of annealing temperature on the microstructure of rapidly-solidified TiNi-Cu alloy ribbons;
退火温度对Ti_(53.5)Ni_(22.8)Cu_(23.7)合金快速凝固条带组织的影响
2.
Influence of annealing temperature on structure and properties of Al-6Mg-Sc-Zr alloy;
退火温度对Al-6Mg-Sc-Zr合金组织与性能的影响
3.
Effects of annealing temperature on microstructures and properties of the 25Mn-3Si-3Al-TWIP steel;
退火温度对25Mn-3Si-3Al-TWIP钢组织和力学性能的影响
6)  Temper temperature
回火温度
1.
The effect of temper temperature on microstructures and wear resistance of surfacing deposits of ferro-based multicomponent alloy was investigated.
研究了回火温度对铁基多元合金堆焊层组织及耐磨性的影响。
2.
The influence of processing parameters,such as finishing rolling and temper temperatures,on the hardness and microstructure of 1.
2311塑模钢扁钢尺寸、终轧温度、回火温度等主要工艺参数对其轧后硬度、回火硬度及组织均匀性的影响。
3.
The effect of temper temperature on microstructure of KmTBCr26 high chromium cast iron was investigated by means of X-ray diffraction and optical microscope,and the hardness and impact toughness of samples treated by various tempering techniques were tested.
利用X射线衍射及光学显微镜,研究了回火温度对KmTBCr26高铬铸铁显微组织的影响并测定了相应的硬度和冲击韧性。
参考词条
补充资料:高炉火焰温度


高炉火焰温度
flam temperature of blast furnace

gaolu huoyan WendU高炉火焰温度(flam temperature。f blastfurnace)高炉风口前发生热风与碳素的燃烧反应。高炉火焰温度即指在绝热条件下该燃烧反应的气体产物(即火焰)所达到的温度。又称理论燃烧温度或绝热火焰温度。由于它是绝热状态下的理论值,故可用计算准确地求得。计算既可取燃烧每Ikg风口碳素又可取每消耗lm”热风为单位,所得结果相同。火焰温度的计算式或称定义式为 T理-卑必土皂肇井孕)孚二旦公 ‘”一c》xV式中Q嫩为单位质量燃料燃烧时所释放的热,J或kJ;Q物为该燃料到达风口前所携物理热,J或kJ;Q风为相应的助燃鼓风在一定风温下带入的物理热,J或kJ;Q分为助燃风中的水分及辅助燃料中碳氢化合物的分解热,J或kJ;v为该条件下,燃烧产生煤气量,m3;C沪为在所求的T理温度下煤气热容,J/℃·m3。由于C,既是气体成分的函数,又是温度的函数,故在T理尚为未知数的条件下,为避免按经验选定c,的平均值所造成的误差,计算式可演化为 、二T,_甲、。T二_Q燃+Q物+Q风一Q分 △H义理一T理XC忿理-一粉’一科,.,一热一刃 ___-一二·一pV式中△H恤是燃烧产物在T理温度下的焙(J/m“),是可计算的值。根据燃烧产物气体的成分及已知△H恤值可估计出T理应在T:一T:的范围之内(一般可选择二者相差为100℃的两个整数)。则首先可按下式得出在Tl及TZ下的烩△H几及△H几: △H一£扑H卜二孤8味dT式中c、为燃烧产物气中i组分的摩尔分数浓度;c洲为燃烧产物气中i组分的等压热容,J/℃,mol。计算结果应使△月1渔的值恰在△HTI与△万几之间。然后按内插法即可求得T理值。具体计算方法如下: T理一Tl十华聆~招琪华(T,一Tl) 一仕一‘(△H卫2一△月几)、“或T理一二一乓黑乒弃婴票i字(二一Tl)~”一妞一‘(△月丈2一△H逆l)““ (齐宝铭)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。