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gas过程
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  gas process
     Results show that the GAS process not only could effectively control the particulate size, size distribution and the shape of the crystal, but also could effectively lower the impact sensitivity and shock wave sensitivity, so as to improve the safety of the explosive.
     结果表明 ,GAS过程不仅可以有效地控制炸药颗粒的粒度、粒度分布、晶形 ,而且可以有效降低炸药撞击感度和冲击波感度 ,改善炸药安全性能
短句来源
  “gas过程”译为未确定词的双语例句
     Research on Continuous Gas Anti-solvent Crystallization of Hydroquinone Using a Supercritical Fluid
     超临界连续GAS过程制备对苯二酚超细颗粒
短句来源
     The applications of supercritical fluid technologies for preparing ultrosmall particles were reviewed. The mechanism and devices of RESS、GAS and supercritical fluid reverse microemulsion were introduced.
     本文对超临界流体技术在超细颗粒制备中的应用进行了综述,介绍了RESS过程、GAS过程和超临界流体反微乳技术的机理和装置。
短句来源
     The results show that the different particle size and size distribution can be obtained by changing the way of solution expansion.
     研究结果表明,GAS过程中不同的膨胀方式,可以得到不同的沉析颗粒大小和尺寸分布。
短句来源
     The effect of temperature on particle size is much smaller than that of pressure. When the experimental temperature is more than 50℃ or partial superheat caused by rapidly exothermic crystallization, by pressure process etc. , α-HMX will be formed, and some measures to prevent α-HMX can be taken.
     GAS过程中,温度对过饱和度的影响相对比较小,与传统的结晶过程一样,温度是影响晶形的主要因素,当操作温度超过50℃或增压膨胀、沉析结晶放热引起的局部温度过高时,都会产生α HMX,适当搅拌可以防止局部过热以防止α HMX产生。
短句来源
  相似匹配句对
     Crystalline Form Control in the Process of Supercritical Gas Antisolvent Recrystallization
     GAS超临界重结晶过程中的晶形控制问题
短句来源
     New Study on Process
     “过程”新论
短句来源
     Value of Process
     过程的意义
短句来源
     [Conclusion] GAS and SS were possibly involved in the pathophysiological process of peptic ulcer.
     [结论] GAS、SS可能参与消化性溃疡的病理生理过程;
短句来源
     GAS is dynamic reconfigurable.
     GAS是动态可重构的。
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  gas process
Due to the complexity of the counter-current coal-gas process used, a gasifier dissection was undertaken on one of the Sasol gasifiers.
      
Also, the process may be applied to Claus tail gas streams in the natural gas process ing and refining industries.
      
Basic research and development in the use of the tungsten-inert gas process of welding aluminum and its weldable alloys.
      
Continued addition of new data provides for an up-to-date and comprehensive set of data on solid, liquid, and gas process streams at power plants.
      
Replacing the open gas plasma structure with Plasma-spheresTM eliminates the time-consuming gas process step.
      
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The applications of supercritical fluid technologies for preparing ultrosmall particles were reviewed.The mechanism and devices of RESS、GAS and supercritical fluid reverse microemulsion were introduced.

本文对超临界流体技术在超细颗粒制备中的应用进行了综述,介绍了RESS过程、GAS过程和超临界流体反微乳技术的机理和装置。

The rapid expansion of supercritical solution (RESS) and the gas anti-solvent (GAS) precipitation are the new and promising methods of microparticle formation. In this paper, we discuss the method, features and effective factors of microparticle using supercritical fluids, and the applications to polymeric, inorganic, organic, ceramic, pharmaceutical and explosive mate-rials. Supercritical fluid precipitation appears to be a reliable and effective technology for produc-tion of particle materials and ultra-thin...

The rapid expansion of supercritical solution (RESS) and the gas anti-solvent (GAS) precipitation are the new and promising methods of microparticle formation. In this paper, we discuss the method, features and effective factors of microparticle using supercritical fluids, and the applications to polymeric, inorganic, organic, ceramic, pharmaceutical and explosive mate-rials. Supercritical fluid precipitation appears to be a reliable and effective technology for produc-tion of particle materials and ultra-thin films.

快速膨胀超临界流体溶液(RESS)过程和以超临界流体为稀释膨胀剂(GAS)过程是制备微细颗粒的新技术.本文着重分析了用RESS和GAS过程制备微细颗粒的特点及影响因素,介绍了在高分子聚合物、无机盐、陶瓷材料、有机物、药物及合能材料方面的应用,提出超临界流体沉析技术将成为制备特殊细颗粒材料、超薄膜及提纯热敏性、易氧化物质的有效手段.

The principle of fining technology in GAS process and the main factors affecting the fining result are introduced. Effects on impact sensitivity and shock wave sensitivity are analyzed theoretically and experimentally after recrystallization and fining treatment of the explosive. Results show that the GAS process not only could effectively control the particulate size, size distribution and the shape of the crystal, but also could effectively lower the impact sensitivity and shock wave sensitivity, so as to...

The principle of fining technology in GAS process and the main factors affecting the fining result are introduced. Effects on impact sensitivity and shock wave sensitivity are analyzed theoretically and experimentally after recrystallization and fining treatment of the explosive. Results show that the GAS process not only could effectively control the particulate size, size distribution and the shape of the crystal, but also could effectively lower the impact sensitivity and shock wave sensitivity, so as to improve the safety of the explosive.

介绍了气体反溶剂 (GAS)过程细化技术原理及影响细化结果的主要因素 ,并从理论和实验角度分析了炸药重结晶细化处理后 ,对撞击感度和冲击波感度的影响 ;结果表明 ,GAS过程不仅可以有效地控制炸药颗粒的粒度、粒度分布、晶形 ,而且可以有效降低炸药撞击感度和冲击波感度 ,改善炸药安全性能

 
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