原电池中具备较低电势的金属是阳极的而且会受到腐蚀。
The metal with a lower potential in the galvanic cell will be anodic and will corrode.
进行了模拟原电池试验和预蠕变试样的应力腐蚀试验。
Simulated galvanic cell tests and stress corrosion tests using pre-creeping specimens were conducted.
结论低贵合金的腐蚀源于多相结构之间电位差引起的原电池反应。
Conclusion This study indicates that galvanic cell induced by multiphase structure of the low- noble alloy is the main reason of the corrosion.
用分立电极实验和芯片级实验验证了原电池钝化引起的腐蚀自停止现象。
The etch-stop phenomenon as a result of galvanic cell formation is verified by the wafer-level chip and the separated electrodes experiments.
用分立电极实验和芯片级实验验证了原电池钝化引起的腐蚀自停止现象。
The etch-stop phenomenon as a result of galvanic cell formation is verified by the wafer-level chip and the separated electrodes experiments.
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