1) B30 Cu-Ni alloy
B30铜镍合金
1.
The inhibition effects of environment-friendly inhibitors of the complex of PASP and Na_2WO_4 for B30 Cu-Ni alloy corrosion are studied.
当模拟水介质的pH在7~9之间,随着pH值的增大,B30铜镍合金的耐蚀性能增加;pH大于9时,B30铜镍合金的耐蚀性能又随pH的增大而降低。
2.
The effect of temperature on electorchemical behavior of B30 Cu-Ni alloy in seawater was studied by linear polarization,potentiodynamic polarization,electrochemical impedance spectroscopy and cyclic anodic polarization.
采用线性极化、动电位极化、交流阻抗、循环阳极极化等测试方法,研究了温度变化对B30铜镍合金在海水中电化学行为的影响。
3.
The influ-ence of the oxide film on the electrochemical behavior of B30 Cu-Ni alloy was studied by making use of linear polarization, potentiody-namic polarization, electrochemical impedance spectroscopic and cyclic anodic polarization measurements.
B30铜镍合金具有优良的耐海水腐蚀性能,但在海水中形成的表面膜对其自身的电化学行为有影响,过去对此研究不多。
2) B30 copper alloy
B30铜合金
1.
MgF2-CaF2 Slag with melting point 100~200℃ lower than that of copper alloy has been used to remelt B30 copper alloy.
采用熔点比铜合金熔点低100~200℃的MgF2-CaF2渣系重熔B30铜合金,熔化速率(kg/h)控制在(1~1。
3) B30 alloy
B30合金
1.
The effects of semicontinuous casting process with different technological parameters on the ingot microstructure and forgeability of B30 alloy were studied.
研究表明,铸锭的晶粒生长方向及晶粒大小与铸造速度和冷却强度有关;低铸造速度(<3m/h或停拉式)、大轴向冷却强度(冷却水量>8m3/h)可在铸锭组织中形成较多的斜向柱状组织,斜向生长且与铸锭轴向间夹角小于30°的细长柱状组织对发挥B30铸锭的可锻性有利;电渣重熔B30铸锭,可锻性最好,B30合金电渣重熔的渣料及配比可选取CaF2、MgF2,比例:8/2。
4) copper-nickel alloy
铜镍合金
1.
This paper describes a fundamental investigation of the corrosion behavior of copper-nickel alloy in cooling water environment, utilizing light optical, scanning electron microscopy and X-ray diffraction.
以某发电厂凝汽器铜镍合金(BFe30_1_1)点腐蚀失效为例,利用扫描电镜、X射线衍射,分析了在循环冷却水环境中BFe30_1_1铜镍合金发生点腐蚀的形貌和腐蚀产物的组成。
2.
By analyzing the costs,purchase times and construction condition,we adopted copper-nickel alloy and plastic coated carbon steel in piping design for a project that is in restricted time and funds;to ensure the project quality.
在海水介质管线设计中 ,通常把管线材质分为 ,铜镍合金、玻璃钢及碳钢涂塑管线。
3.
Investigates Copper-Nickel alloy layers deposited on polyester (PET) fabric by an electroless plating using sodium hypophosphite as reducer, with sweep electron microscope (SEM) and X-ray diffraction (XRD).
选用次亚磷酸钠作还原剂,用化学镀的方法制备了铜镍合金化涤纶织物。
5) Cu-Ni alloy
铜镍合金
1.
Studies on Cu-Ni alloy electroless plating using sodium hypophosphite as reductant;
次磷酸钠化学镀铜镍合金的研究
2.
Localized corrosion of Cu-Ni alloy in China marine;
铜镍合金在我国实海海域的局部腐蚀
3.
Effects of SRB (sulfate-reducing bacteria) on corrosion of Cu-Ni alloy was studied using electrochemical techniques under laboratory conditions.
利用电化学测试技术,在实验室条件下研究了硫酸盐还原菌(SRB)对铜镍合金腐蚀行为的影响。
6) Copper nickel alloy
铜镍合金
1.
Preparation and characterization of copper nickel alloy/carbon composite nanoparticles with core/shell structure
核/壳结构铜镍合金/碳复合纳米粒子制备及表征
2.
These series of copper nickel alloys were internally boronized.
在提出了内硼化的概念之后,对三种含镍量不同的铜镍合金进行了内硼化处理。
3.
The results indicated that copper alloy could not inhibit the adhesion of sulfate-reducing bacteria;the presence of sulfate-reducing bacteria caused the corrosion potentials of copper nickel alloy shift negatively and serious denickel corrosion occur.
从浸泡在海水中的铜镍合金表面分离纯化出了硫酸盐还原菌,并深入研究了其对B10及B30合金在海水中腐蚀行为的影响。
补充资料:铜镍合金
分子式:
分子量:
CAS号:
用途:电器仪表常用的材料。
分子量:
CAS号:
用途:电器仪表常用的材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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