1) Explosive induration techique
爆炸硬化技术
2) explosion hardening
爆炸硬化
1.
Hadifield steel was treated with explosion hardening.
对Mn13Cr2高锰钢进行了爆炸硬化处理。
2.
The hardening craft and hardening mechanics of explosion hardening of high-Mn steel was summarized,the achievements of explosion hardening research and the further work were simply introduced in this field.
对高锰钢爆炸硬化工艺和硬化机理进行了综述,并对爆炸硬化的研究进展及需要开展的进一步工作作了简单介绍。
3.
In this paper,We use explosion hardening treament to improve the wear span of the high carbon steel of a hammar crsher in building material,and it obviously improve the distribution of the hardness and anti crossion.
通过对建材用锤式破碎机上的高锰钢件进行爆炸硬化试验研究,使其硬度和耐磨性得到了明显的提高,并对此方法的经济效益及应用前景作了分析。
3) explosive hardening
爆炸硬化
1.
Research on explosive hardening experiment of the DHP copper sheet
DHP铜板爆炸硬化实验研究
2.
For the shortages of explosives used on explosive hardening at present,a new polymer bonded plastic explosive is developed.
针对目前爆炸硬化所用炸药的性能不足,研制出一种高聚物粘结塑性炸药,利用该塑性炸药对高锰钢辙叉进行爆炸硬化。
4) exploding technology
爆炸技术
1.
The induction of exploding technology into petroleum industry was more than 100 years, and the industrial scale application of exploding technology was more than 20 years, it involved in perforation, fracturing and so on.
爆炸技术引入石油行业已有一百多年的历史,大规模的工业应用也有二三十年的历史,在低渗透油藏的增产方面,涉及到了射孔、高能气体压裂等多个领域。
5) explosion pre-hardening
爆炸预硬化
1.
, the influences of solution treatment, aging and explosion pre-hardening on the microstroucture and wear resistance of ZGMn13VTiMoRE steel have been studied.
运用金相、透射及扫描电镜和冲蚀磨损等试验方法,研究了不同水韧及时效工艺处理和爆炸预硬化对高锰钢(ZGMn13VTiMoRE)组织和耐磨性的影响,提出了优化热处理工艺。
6) hardening/explosive machining
硬化/爆炸加工
补充资料:肝硬化性肾小球硬化
肝硬化性肾小球硬化
hepatocirrhotic glomerulosclerosis
肝脏病时,肠道内抗原通过侧支循环进入体循环,激发抗体生成,导致免疫复合物性肾炎,最终形成肾小球硬化。多见于肝硬化期,临床表现以肝病表现为主,肾脏病表现为次。晚期可有肝肾衰竭。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条