1) super-temperature corrosion
超高温腐蚀
1.
The results show that it is necessary and urgent to research the super-temperature corrosion behavior of the stainless steel alloying system.
结果表明,研究不锈钢合金系统的超高温腐蚀行为十分必要和迫切。
2) high-temperature corrosion
高温腐蚀
1.
Investigations on outer thermal spraying and inner shot blasting on boiler tube to promote high-temperature corrosion resistance;
采用外壁喷涂与内壁喷丸方法提高锅炉高温受热面管抗高温腐蚀性能的试验
2.
The large amount of vanadium in Orimulsion may cause unexpected problems in the prevention of high-temperature corrosion of furnace.
奥里油中含钒量较多,是锅炉预防高温腐蚀设计中的大难题。
3.
The mechanism of high-temperature corrosion on water-wall of coal-fired boilers in thermal power plants has been briefly presented, and preventive countermeasures being put forward directing against different causes of high-temperature corrosion, the prevention technology of spraying corrosion-resistant metallic coatings onto surface of the water-wall being emphatically narrated.
简要介绍了火电厂燃煤锅炉水冷壁高温腐蚀机理,并针对不同的高温腐蚀原因提出了防护对策。
3) high temperature corrosion
高温腐蚀
1.
Study on high temperature corrosion resistance of FeCrAl and NiCr alloy coating;
FeCrAl和高镍铬合金涂层的抗高温腐蚀性能研究
2.
High Temperature Corrosion of Superheater Tube Materials in Pulverized Coal-Fired Environment;
粉煤燃烧环境中过热器管材的高温腐蚀
3.
Cause analysis of high temperature corrosion and precautionary measures for a 300MW boiler furnace;
燃煤锅炉炉膛高温腐蚀原因及对策
4) corrosion at high temperature
高温腐蚀
1.
This paper represents the mechanism of the water wall tube corrosion at high temperature and the principle of spraying Ni-Cr alloy anticorrosion coat , and introduces the characteristics of the high speed arc spraying and construction technology , at the same time also introduces the method of coat quality inspection.
初步阐述了水冷壁管高温腐蚀的机理及喷涂Ni-Cr合金防腐涂层的原理,介绍了高速电弧喷涂技术的特点、施工工艺,同时也介绍了涂层质量的检测方法。
5) hot corrosion
热腐蚀,高温腐蚀
补充资料:高温腐蚀
分子式:
CAS号:
性质: 金属材料在高温下与环境气氛中的氧、硫、碳、氮等元素发生化学或电化学反应而导致的变质或破坏。高温腐蚀并无严格的温度界限,通常认为,当金属工作温度达到其熔点(绝对温标)的0.3~0.4以上时,就可认为是高温腐蚀环境。在石油化工、能源、动力、冶金、航空航天等领域普遍存在高温腐蚀问题,针对不同的高温腐蚀环境可以采用不同类型材料,或采用耐高温腐蚀涂层进行防护。
CAS号:
性质: 金属材料在高温下与环境气氛中的氧、硫、碳、氮等元素发生化学或电化学反应而导致的变质或破坏。高温腐蚀并无严格的温度界限,通常认为,当金属工作温度达到其熔点(绝对温标)的0.3~0.4以上时,就可认为是高温腐蚀环境。在石油化工、能源、动力、冶金、航空航天等领域普遍存在高温腐蚀问题,针对不同的高温腐蚀环境可以采用不同类型材料,或采用耐高温腐蚀涂层进行防护。
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