人造海水

rén zào hǎi shuǐ
  • artificial seawater
人造海水人造海水
  1. 研究结果表明,Al-Zn-In系牺牲阳极在人造海水中电化学性能良好。

    The results show that the sacrificial anode of Al-Zn-In alloy have excellent electrochemical performance in artificial seawater .

  2. 结果表明,焊接接头各部位在人造海水中的应力腐蚀开裂敏感性有很大差异,其中热影响区(HAZ)对SCC最敏感,K1值最低;

    The results show that SCC susceptibility of various position for welded joint in artificial seawater is different , the HAZ is most susceptible to SCC and k1 value is the lowest .

  3. 对A3钢热浸镀铝和铝-稀土的两种镀层在人造海水中的电化学腐蚀行为进行了研究。

    The corrosion electrochemical behavior of aluminum hot dipped coating was studied in simulated sea water .

  4. 锌铝合金镀层在人造海水中的腐蚀研究

    Seawater corrosion of a zinc-aluminum alloy coating in immersion

  5. 低合金钢在人造海水中腐蚀过程的穆斯堡尔谱学研究

    Mossbauer study of corrosion process of low alloy steel in synthetic sea water

  6. 热浸镀铝层耐人造海水腐蚀性的电化学研究

    Simulated Sea Water Corrosion of Aluminum Hot Dipped Coating

  7. 结果表明,新研制的镁合金在人造海水介质中的开路电位增加,自腐蚀速度降低,稳定工作电位提高,电极表面腐蚀均匀,可开发用于高电性能电池的负极材料。

    The polarization of the magnesium alloy was weakness and the electrode potential was very negative , so that the magnesium alloy could be used as cathode material in high-powered battery .

  8. 采用了四种方法:电化学交流阻抗法,盐雾箱试验法,人造海水浸泡,海上实船挂片,并分别与未加缓蚀剂的原涂层进行对比,对各涂层的耐蚀性能进行评定。

    Four test techniques are applied to evaluate the corrosion inhibitor performance , i. e. electrochemical AC impedance method , salt spray-box test , artificial seawater immersion , hanged plant at sea and on board .