1.
free-pouring mining explosive
自由灌注的矿用炸药
2.
The dynamite itself is implanted in a matrix of inert materials.
炸药本身被灌注在一种惰性物质的填料内。
3.
Experimental Study of the Protective Effect of Mechanical Post-conditioning and Pharmacological Post-conditioning on Acute Ischemia Reperfusion Myocardium;
机械性后处理与自由基清除剂药物后处理对急性缺血再灌注心肌保护作用的对照实验研究
4.
If explosives are used, vibrations will cause the roof of the mine to collapse .
若是用炸药,震动会使矿井的顶部倒塌。
5.
Development and Application of On-site Mixed Loading Vehicles for Explosives in Open pit
露天矿现场混装炸药车的发展与应用
6.
New Advancement of Site Mixing and Loading Technique for Underground Mine Explosive
地下矿用炸药现场混装技术的新进展
7.
It is well known that bulk emulsion explosive has become a main direction in development of mining explosives.
散装乳化炸药已成为矿用炸药的主要技术发展方向。
8.
Making Perfusion Gel Explosive from Two Kinds of Single-based Propellant
两种单基发射药灌注成型为凝胶炸药研究
9.
Researching of Anti_Deflagration Property and Test Methods of Permissible Explosive;
煤矿许用炸药抗爆燃性及试验方法的研究
10.
Application of water gel explosive in development work of Shihu mine
水胶炸药在石湖矿业公司开拓工程中的应用
11.
The Production of Oxygen-derived Free Radical and the Restraint of Gliotoxin in Ischemia Reperfusion Injury in Liver;
肝脏缺血再灌注损伤中氧自由基的产生及胶毒霉素的抑制作用
12.
The Protective Effect of HWTX-I on the Damage of Free Radical in Rat Brain Mitochondria after Cerebral Ischemia-reperfusion;
HWTX-I对大鼠脑缺血再灌注后线粒体中自由基损伤的保护作用
13.
On the Protective Function of HWTX-I From the Damage of Rat s Cerebral Ischemia to Hindbrain s Mitochondrial Free Radical after Reperfusion;
HWTX-I对大鼠脑缺血再灌注后脑线粒体中自由基损伤的保护作用
14.
Effects of Tetrandrine on calcium ion and oxygen free radicals in brain tissue after ischemia-reperfusion in rats
粉防己碱对大鼠脑缺血再灌注后脑组织钙离子和氧自由基的作用
15.
The Development and Clinical Application on Chinese Herbal Medicine-Quyiling Perfusion Solution;
中药祛衣灵灌注液的研制及临床应用
16.
Preparation and Pharmacological Effect of Shuangshen Perfusate
“双参灌注液”的制备及其药理作用研究
17.
Explosives, especially when designed or used as weapons.
炸药炸药,特别是指设计为或用作武器的炸药
18.
The Application of"New"Interval Charge Technology to Reduce the Consumption of Explosives about Deep-hole Blasting in Open-pit Mine
“新型”间隔装药技术降低露天矿深孔爆破炸药单耗的应用