Formation mechanism of Fe_xSi particles in ferro-silicon nitride prepared via flashing combustion
闪速燃烧合成的Fe-Si_3N_4中Fe_xSi粒子的形成机理
The phase and microstructure of Fe3Si-Si3N4 synthesized by FeSi(75) using flashing combustion process were researched.
利用SEM和EDS等手段对原料FeSi75闪速燃烧合成产物的相组成和显微结构进行了分析。
The distribution status of Fe in the ferro silicon nitride (FeSi_(3)N_(4)) material synthesized by flashing combustion process was analyzed by means of fluorometric measurement, XRD, SEM and EDS.
用化学分析、XRD,SEM,EDS等检测手段,首次对闪速燃烧工艺制备的新型合成原料———氮化硅铁(FeSi3N4)中铁元素的存在状态进行了研究。
Formation mechanism of Fe_xSi particles in ferro-silicon nitride prepared via flashing combustion
闪速燃烧合成的Fe-Si_3N_4中Fe_xSi粒子的形成机理
The metal burns rapidly with a brilliant flash.
金属丝迅速燃烧,发出耀眼的闪光。
Easily ignited and capable of burning rapidly; flammable.
易燃的很容易被点燃并迅速燃烧的;可燃烧的
testing method for flammability of clothes burning rate method
织物燃烧试验法:燃烧速度测试法
The nature of the fuel gas affects the flame flashback.
燃烧剂气体的特性对火焰反闪有影响。
radiation-enhanced burning rate
辐射增强的燃烧速率
burning rate-pressure relationship
燃烧速率与压力的关系
Combustion Characteristics of Small Grain-Binding High-Burning-Rate Propellant;
小球粘结高燃速推进剂燃烧特性研究
Combustion Characteristics of Thruster with High Burning Rate Pyrotechnics
高燃速烟火型做功器件燃烧特性研究
Rapid Analysis of Coal Quality and Combustion Character by Constant-volume Combustion Method;
定容燃烧法快速煤质和燃烧特性的研究
The Numerical Simulation of the Combustor of Scramjet;
超音速燃烧冲压发动机燃烧室数值模拟
Study on Combustion Velocity and Temperature of Non-electric Welding Material
无电焊接材料的燃烧速度和燃烧温度研究
Experimental Study on Beneficiation of an Iron-bearing Gold-leaching Residue by Flash-roasting & Magnetic-separation
某含铁浸金渣闪速焙烧磁选试验研究
Test Research on the Flash Magnetization Roasting Technology for Complex and Refractory Iron Ore
难选铁矿石磁化焙烧机理及闪速磁化焙烧技术
Easily ignited and capable of burning rapidly; inflammable.
可燃的,易燃的容易点燃和能够迅速燃烧的;可燃的
Numerical Simulation on Supersonic Combustion of Fuel-rich Gas for a Dual Combustor Ramjet
双燃烧室冲压发动机富油燃气超声速燃烧数值模拟
Test method for flammability of plastics--Flash-ignition temperature and self-ignition temperature test
GB/T9343-1988塑料燃烧性能试验方法闪点和自燃点的测定
After hydrogen injecting,firstly,a combustion flow pattern developed in the combustion chamber with the flow velocity being supersonic on average.
注入氢后,首先在燃烧室内形成平均流速是超声速的燃烧流动。