| 1. | Analysis on protection failure of zinc sacrificial anodes
锌合金牺牲阳极保护失效原因分析 |
| 2. | Each tank shall be furnished with an internal anode for anodic protection
每个内胆都应该配置一体化的阳极以提供阳极保护。 |
| 3. | Anode loss protection
牺牲阳极保护 |
| 4. | Iron is the impurity with the most profound effect on the anode performance
尤其值得注意的是,铁是对阳极保护效果影响最大的一种杂质。 |
| 5. | Maintenance inspection and management of sacrifice anode protecting system in airport oil transporting piping
机场输油管道牺牲阳极保护的维护检测与管理 |
| 6. | Discussion of anodically protected shell and tube strong acid stainless steel cooler and its being made domestically
浅议带阳极保护管壳式不锈钢浓酸冷却器及其国产化 |
| 7. | The corrosive reason of underground pipeline is explained , the anode protection and application of underground pipeline are introduced , and some useful conclusion are obtained
说明了埋地管线腐蚀的原因,介绍了埋地管线的阳极保护及应用,得到了一些有益的结论。 |
| 8. | Abstract : the corrosive reason of underground pipeline is explained , the anode protection and application of underground pipeline are introduced , and some useful conclusion are obtained
文摘:说明了埋地管线腐蚀的原因,介绍了埋地管线的阳极保护及应用,得到了一些有益的结论。 |
| 9. | The electrode potential of zinc was less than that of ndfeb magnetic powders . ndfeb magnetic powders were protected because zinc had been the anode through the electrochemistry corrosion
金属锌镀层比基体ndfeb电极电位更负,在发生电化学腐蚀作用时,可起到牺牲阳极保护基体的作用。 |
| 10. | According to electrochemistry theory , electrochemistry protection is divided into anode protection and negode protection . in proportion to corrosion protection theory and practice in the world , underground pipes should take negode protection
根据电化学原理,电化学保护分为阴极保护和阳极保护,根据国内外防腐理论和实践,埋地管道宜采用阴极保护。 |
