ТЕПЛОПРОВОДНОСТЬ И ИЗНОСОСТОЙКОСТЬ ГИБРИДНЫХ КОМПОЗИТОВ A359/(SIC + SI3N4), ИЗГОТОВЛЕННЫХ ЛИТЬЕМ ПОД ДАВЛЕНИЕМ

Исследованы термические параметры и износ при сухом скольжении гибридных композитов на основе матрицы A359, изготовленных литьем под давлением. Композиты были упрочнены введением 5, 10 и 15 мас. % (SiC + Si₃N₄). Износ композитов A359/(SiC + Si₃N₄) происходил под нагрузкой в диапазоне 20‒60 Н при скорости скольжения 2,75 м/с. Обнаружено, что композиты A359/(SiC + Si₃N₄) обладают относительно низкой теплопроводностью и более высокой стойкостью к износу, чем сплав A359. Коэффициенты трения и температура контактной поверхности образцов композита A359/(SiC + Si₃N₄) возрастают по мере увеличения содержания в них (SiC + Si₃N₄). При исследовании изношенных поверхностей обнаружено, что композиты A359/(SiC + Si₃N₄) покрыты оксидами железа, которые играют роль самосмазывающегося слоя. Более высокий показатель износостойкости композитов A359/(SiC + Si₃N₄) позволяет использовать их в автомобильной промышленности.

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