Potentiodynamic study of lead babbit BLa (PbSb15Sn10), with lanthanum, in the electrolyte environment NaCl

M. Zarifova, I. N. Ganiyev, Kh.I. Kholov, S. K. Sharipov, F. K. Khodzhayev
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Abstract

The results of a corrosion-electrochemical study of the effect of lanthanum additives as an alloying component on the anodic behavior of lead babbit of the BLa brand (PbSb15Sn10), in a NaCl electrolyte medium with a concentration of 0.03; 0.3 and 3.0 % (by weight) are presented. The anodic behavior of babbits was investigated by the potentiostatic method at a potential sweep rate of 2 mV/s. The lanthanum content in lead babbit BLa (PbSb15Sn10) was 0.01, 0.1, 0.50 and 1.0 % (by weight). It was found that with an increase in the concentration of chloride ion in the NaCl electrolyte, there is a shift in the negative region of the values of the potentials of corrosion, pitting formation and repassivation of babbits. The free corrosion potential of lead babbit shifts from time to time to the positive region. Regardless of the composition of babbits, an increase in the rate of their corrosion was established with an increase in the concentration of NaCl in the electrolyte. The addition of lanthanum to lead babbit increases its corrosion resistance. It is shown that lead babbit corrodes by the pitting mechanism and lanthanum as an alloying component of lead babbit BLa (PbSb15Sn10) contributes to the shift of the potentials of pitting formation and repassivation to the region of positive values. This leads to an increase in the resistance of lead babbit to pitting corrosion, and also contributes to the healing of incipient pitting foci.
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含镧的铅巴氏合金BLa (PbSb15Sn10)在NaCl电解质环境中的电位动力学研究
在0.03 NaCl电解质介质中,研究了镧添加剂作为合金组分对BLa牌号(PbSb15Sn10)铅巴氏体阳极行为的腐蚀电化学影响;0.3和3.0 %(按重量计)。在2 mV/s的电位扫描速率下,用恒电位法研究了巴氏合金的阳极行为。铅巴氏合金BLa (PbSb15Sn10)的镧含量分别为0.01、0.1、0.50和1.0%(重量计)。结果表明,随着NaCl电解液中氯离子浓度的增加,巴氏体的腐蚀电位、点蚀电位和再钝化电位的负值区域发生了变化。铅巴氏合金的自由腐蚀电位不时地向正极区域移动。无论巴氏体的组成如何,随着电解质中NaCl浓度的增加,其腐蚀速率也随之增加。在巴氏铅合金中加入镧提高了其耐腐蚀性。结果表明,铅巴氏体腐蚀是通过点蚀机制进行的,而镧作为铅巴氏体BLa (PbSb15Sn10)的合金成分,使得点蚀形成电位和再钝化电位向正值区域移动。这增加了铅巴氏合金的抗点蚀能力,也有助于初发点蚀灶的愈合。
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