magnesium anode
英 [mæɡˈniːziəm ˈænəʊd]
美 [mæɡˈniːziəm ˈænoʊd]
网络 土耳其求购镁阳极
双语例句
- Our high silica lining provides a tough interior surface for water heater tanks, which must withstand the wearing effects of high volume and high temperature hot water. Magnesium anode is used to extend tank life.
高级二氧化硅内胆使得热水器的内胆表面特别坚固耐用,能够经受住大水量和高温破坏的考验。本热水器采用金属镁阳极棒,有利于延长内胆的使用寿命。 - Magnesium anode is used to extend tank life.
本热水器采用金属镁阳极棒,有利于延长内胆的使用寿命。 - A nuclear fusion reaction taking place at very high temperatures ( as in the sun). Magnesium anode is used to extend tank life.
在极高温度下(如在太阳内部)发生的一种核聚变反应。本热水器采用金属镁阳极棒,有利于延长内胆的使用寿命。 - The tank shall have extruded magnesium anode rods installed in separate head couplings and extended to within three inches ( 76mm) of the bottom.
内胆应该配置突出型镁阳极棒,安装在独立的连接口上,并延伸至离内胆底部三英寸(76mm)的地方。 - The magnesium anode rod should be inspected periodically and replaced when necessary to prolong tank life.
应该定期检查阳极棒,为了延长热水器的使用寿命,在必要时,更换阳极棒。 - Magnesium alloy sacrificial anode
GB/T17731-1999镁合金牺牲阳极 - The electrochemical synthesis of anthracene magnesium by using sacrificial magnesium anode and'carbon cathode was studied.
研究了消耗性镁阳极存在下蒽镁为有机电合成。 - Effect of TiO_2 on Microstructure and Electrochemical Properties of Magnesium Sacrificial Anode Materials
TiO2对镁锰牺牲阳极材料显微组织和电化学性能的影响 - Investigation on Failure of Magnesium Anode Protection in Shi Lou-Yan Hua Pipeline
石楼&燕化管道镁牺牲阳极保护失效原因调查 - Magnesium ribbon sacrificial anode is fabricated by special extrusion process.
采用挤压技术开发了一种带状镁基牺牲阳极产品,已经投入市场。 - Application of Sacrificing Magnesium Anode in Corrosion Protection of Inner Wall of Triphase Separator Used in Natural Gas Field
用镁牺牲阳极防三相分离器内壁腐蚀的研究 - Production Process Control of Extrusion Magnesium Sacrificial Anode
镁合金挤压阳极生产过程控制 - Hydrogen evolution on magnesium sacrificial anode in fresh water
淡水中镁基牺牲阳极上的析氢行为 - Application of Sacrificial Magnesium Anode in Reductive Coupling of Carbonyl Compounds
消耗镁阳极在羰基还原偶联反应中的应用 - Under all testing conditions the inter-granular corrosion was not observed on the magnesium anode.
在上述试验条件下没有发现镁阳极出现晶间腐蚀。 - In mountain segment, strip or block magnesium anode is used as sacrificial anode.
在山区段采用带状和块状的镁阳极做牺牲阳极。 - However, the ribbon sacrificial anode such as ribbon Magnesium anode and ribbon Zinc anode can extend the application up to hundreds m.
为此人们开发了带状牺牲阳极,目前常用的有带状镁阳极和带状锌阳极,可把应用领域扩大到数百Ωm。 - At different solidified velocity, the change of microstructure and performance on magnesium alloy anode has been studied.
论文研究了不同凝固冷却速度下,镁合金阳极显微组织和性能的变化。 - Effect of alloying elements Ga and X on the electric properties of magnesium alloy anode materials
合金元素Ga、X对镁基负极材料电性能的影响 - For Mg-Ga-X alloy anode, polarization is low, hydrogen evolution is small, and corrosive offspring is easy to shed. The magnesium alloy anode can be used as anode material for high-powered battery.
Mg-Ga-X三元合金具有阳极极化小,析氢量低,腐蚀产物易脱落,成泥少的特点,可开发为高性能的镁负极材料。 - In China, the early stage developed ribbon anode is Magnesium anode but its application is limited due to its low efficiency and short life.
国内早期开发出来的带状阳极是镁阳极,由于镁阳极的效率低、寿命短,使其使用受到限制。 - Development and Application of Band-Type Magnesium Anode
带状镁阳极的开发应用 - The core was the brace of the casting magnesium alloy anode and had the function of connecting the cable.
钢芯在镁阳极中起到支撑和与电缆线连接、导电的作用,在实际生产中,钢芯的尺寸和位置必须合理。 - We have studied the electroorganic reaction of aryl and alkyl isocyanate in the system of using sacrificial magnesium anode.
我们研究了芳基和烷基异氰酸酯在消耗性镁阳极存在下的有机电解反应。 - The properties of electrochemical and corrosion resistance of magnesium anode depend on the alloy component and microstructure.
镁阳极材料的耐腐蚀性能和电化学活性取决于材料的合金成分和组织形貌。 - Magnesium as the anode material of metal fuel cells has received broad attention because it has the advantages of high specific energy, high Faradic capacity, and more negative standard oxidation potential.
Mg作为金属半燃料电池的一种阳极材料,具有高比能量,高法拉第容量和较负的氧化电位等优点,而引起了广泛的关注。 - Secondly, the surface morphology of magnesium alloy anode materials was studied by scanning electron microscopy. The types of corrosion and corrosion mechanism of magnesium alloy anode material were discussed.
其次通过扫描电镜观察镁合金负极材料腐蚀的表面形貌,探讨了镁合金阳极材料的腐蚀类型及腐蚀机理。 - Doping magnesium with other alloy elements is effective ways for the improvement of magnesium anode performance.
在镁中添加合金元素可提高镁阳极放电性能。 - The results show that pitting corrosion occurs in the initial stage of discharge and corrosion products peel off from the matrix, maintaining the activity of magnesium anode. Pb can deposit at the surface of anode during the discharge process, which is helpful to improve the activity.
结果表明:镁阳极放电初期主要以点蚀活化,放电过程中腐蚀产物的不断剥落维持阳极的活性,且在放电过程中发生Pb单质的沉积,有利于活性的提高。