1) microbiologically influenced corrosion
微生物腐蚀
1.
Development of microbiologically influenced corrosion(MIC) and corrosion inhibition using microorganisms in the seawater circulating cooling system;
海水循环冷却水的微生物腐蚀和生物防腐研究进展
2.
A Comparative Study of Microbiologically Influenced Corrosion of Two Kinds of Copper Alloy;
两种铜合金微生物腐蚀的比较研究
3.
Role of the biofilm in the microbiologically influenced corrosion of Cu-30Ni alloy was studied based on a comparative study on samples immersed in environments with and without SRB.
采用电化学阻抗谱、扫描电镜和X射线能谱分析等技术研究了硫酸盐还原菌(SRB)作用下B30合金表面生物膜的结构及其对合金微生物腐蚀的影响。
2) microbial corrosion
微生物腐蚀
1.
The composition of sewage and its metabolite produced by microorganism are briefly described at first,and then the present status and progress of mechanism study of microbial corrosion of concrete are introduced.
简要叙述了污水组成及其微生物代谢产物,介绍了混凝土微生物腐蚀的作用机制及其研究现状,并论述了当前关于混凝土微生物腐蚀研究的主要内容、采取的腐蚀实验方案和相关的微生物学方法,最后强调了国内开展混凝土微生物腐蚀研究的紧迫性。
2.
s:Related bacterial types of microbe are screened based on destroyed situation resulted from microbial corrosion of underwater metallic and concrete structure of water power and hydroelectric engineering.
根据水利水电工程水下金属结构和混凝土结构受到微生物腐蚀破坏的状况,筛选出相关微生物的菌种,确定接触型抗微生物腐蚀涂料用树脂、交联剂和杀菌剂的种类及用量。
3.
Damage of microbial corrosion of concrete was presented,then the corrosion mechanism was introduced,and the measures and problems in microbial corrosion of concrete were described,finally the future development was prospected.
介绍了混凝土微生物腐蚀的危害,结合混凝土微生物腐蚀的作用机理,分析了国内外混凝土微生物腐蚀防治措施的研究现状和存在的问题,并展望了未来的发展趋势。
3) MIC
[英][maɪk] [美][maɪk]
微生物腐蚀
1.
SENSITIVITIES OF MAGNESIUM ALLOY AND OTHERMETALS TO MICROBIOLOGICALLY INFLUENCED CORROSION;
镁合金与其它金属的微生物腐蚀行为比较
2.
Corrosion Mechanism of MIC and Influences on Corrosion and Protection of Underground Pipeline;
微生物腐蚀机理及对埋地管道腐蚀防护的影响
3.
THE ROLE OF Ca~(2+) ON THE MICROBIOLOGICALLY INDUCED CORROSION OF CARBON STEEL;
钙离子对碳钢微生物腐蚀的影响
4) Microbiologically influenced corrosion (MIC)
微生物腐蚀
1.
With increasingly intensive exploitation and effective utilization of marine resources, problems due to microbiologically influenced corrosion (MIC) of metal constructions/components had aroused people’s high concern and extensive study, and among them sulfate-reducing bacteria (SRB) are of the most dangerous culprits.
随着人们对海洋资源的深入开发和有效利用,海洋环境中金属结构建筑物的微生物腐蚀(microbiologically influenced corrosion, MIC)已引起了人们的高度重视和广泛研究。
5) Microbiological corrosion
微生物腐蚀
1.
Microbiological Corrosion and Protection of Magnesium Alloys of lubricate System of Aero-engine;
航空发动机滑油系统镁合金微生物腐蚀与防护
2.
The causes of high corrosion rate in the circulationg cooling water system of chemical fertilizer plant were analyzed from electrochemical corrosion, microbiological corrosion and detrimental ions corrosion.
从电化学腐蚀、微生物腐蚀、有害离子腐蚀等三个方面 ,对大化肥循环水系统腐蚀率高的原因进行了分析 ,认为其主要原因是氨介质泄漏引起的微生物腐蚀 ;同时 ,提出了具体的处理措
3.
Thiobacillus denitrificans(TDN) was used to control the microbiological corrosion of carbon steel caused by Sulfate-reducing bacteria(SRB).
将脱氮硫杆菌(TDN)作用于被硫酸盐还原菌(SRB)微生物腐蚀的碳钢,研究了SRB和TDN生长特性及最适生长条件。
6) bacteria corrosion
微生物腐蚀
1.
There is also no literature reported on the studies of bacteria corrosion to Ti alloy.
牙科修复材料的微生物腐蚀问题已经引起国内外学者的重视。
2.
Sulfate reducing bacterial (SRB) is the major culprit for the bacteria corrosion in the production, gathering and water injection systems in the oil fields.
在油田开采、集输和注水系统中,硫酸盐还原菌(Sulfate Reducing Bacteria,SRB)是引起微生物腐蚀的主要因素之一。
补充资料:微生物腐蚀
分子式:
CAS号:
性质:由于水中存在某些微生物而在无氧条件下引起的对输水设备和管路的腐蚀,又称无氧腐蚀。往往与电化学腐蚀同时发生。一般为局部腐蚀。 微生物控制 microbiological control 在用水和工业冷却水系统,每隔一定时间向水中投加适当浓度的杀生剂(液氯等)以控制微生物生长的方法。
CAS号:
性质:由于水中存在某些微生物而在无氧条件下引起的对输水设备和管路的腐蚀,又称无氧腐蚀。往往与电化学腐蚀同时发生。一般为局部腐蚀。 微生物控制 microbiological control 在用水和工业冷却水系统,每隔一定时间向水中投加适当浓度的杀生剂(液氯等)以控制微生物生长的方法。
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