本论文主要研究了高碳烷基铝的热置换反应和冷凝技术。
The present dissertation deals with the displacement reaction of ethylene and high alkyl-aluminum compounds.
减压渣油重胶质的热反应生焦特点是:初次反应的较低分子质量的产物中,高芳碳率的产物结合形成中间体产物,然后进一步缩合成焦炭。
The characteristics of the coke produced of the heavy resin thermal reaction is that high aromaticity products form intermediate products and then condense to coke in low molecular weight products.
结果表明,经过阻燃处理的木材其氧指数和剩碳率比未处理的木材升高,而热降解反应活化能和分解温度降低。
Experimental data showed that for the treated wood there was an increase in char yield and LOI, and decreases in activation energy and temperature of decomposition.
火所产生的光和热来自于与氧气反应的大型碳分子。
All the heat and light of a fire comes from big, carbon-based molecules combining with oxygen.
初步研究了碳热还原反应的机理,考察了合成工艺条件对材料结构及电化学性能的影响。
The reaction mechanism and the effects of conditions on the structure, morphology and electrochemical performance of materials were also investigated.
计算结果表明,只要满足适当的条件,利用碳热还原反应方法能够制取高纯的UN核燃料。
Calculation results show that highly pure UN nitride can be produced by carbothermal method if some requirements are met.
以廉价的水玻璃和炭黑为原料,采用沉淀-喷雾干燥法制备反应前驱体,经碳热还原合成碳化硅。
Nanocrystalline SiC powder was synthesized by carbothermal reduction of the precursor of carbon black and silica gel prepared by precipitation-spray drying slurry of carbon black and water glass.
从而认为铅原子的形成主要靠气态氧化铅的热解,而碳还原反应则是缓慢的。
Therefore, it is regarded that the formation of atomic lead is mainly dependent on the thermal dissociation of lead oxide and the reduction of lead oxide by carbon is slower.
发现嵌锂碳与溶剂、电解液热分解和正极热分解反应是诱发电池高温加热时爆炸的主要原因;
The main heat sources of lithium batteries were tested and the explosion mechanism was analyzed under oven test, overcharge test and short-circuit.
也公开了使用氧化铝-碳聚集物来捕集铝蒸气物种并将废气的废热用在蒸气回收反应器中以形成可再循环的物料的方法。
A method for using alumina-carbon agglomerates to capture aluminum vapor species and utilize waste heat from off-gases in a vapor recovery reactor to form a recyclable material is also disclosed.
分析了热兑法微碳铬铁生产中 ,反应包衬损坏的主要原因及其影响因素 ,提出了延长反应包寿命的措施。
The main reasons of ladle lining damage and the factors affecting extra-low ferrochromium production with Perrin Process are analysed, and the measures to prolong ladle life are put forward.
分析了热兑法微碳铬铁生产中 ,反应包衬损坏的主要原因及其影响因素 ,提出了延长反应包寿命的措施。
The main reasons of ladle lining damage and the factors affecting extra-low ferrochromium production with Perrin Process are analysed, and the measures to prolong ladle life are put forward.
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