相不断长大,其界面最后到达颗粒表面。因此,在下一个循环中,如果使用小电流放电, 容量可以恢复。这种容量损失是扩散控制的。
3.结语
微波冶金技术作为一种清洁的冶金技术正在全球范围内受到越来越广泛的重视。我国微波冶金技术的开发研究现状、产业化进程与理论研究与国外相比,仍有较大差距,还需不断深入地研究和改进。微波冶金技术无疑代表了当前冶金工业技术发展的方向,有着广阔的应用前景,因此有理由预料,微波冶金有可能成为21世纪重要冶金技术之一。
电化学这门学科应用到微波冶金研究中.不仅可以从机理上了解微波加热的行为,对微波冶金做出更深更合理的解释,而且还可以指导生产中的微波冶金,提出更完善的生产工艺。在研究微波冶金的同时,扩充和促进了电化学的研究。而微波冶金作为一门新工艺,其生产工艺机理仍很不明确。因此,利用电化学理论来探讨微波冶金中的生产工艺机理,将有助于将微波冶金的研究推向深入,并最终提高其在我国冶金工业上的应用。
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