铸造
鑄造
주조
FOUNDRY
2010年
3期
247-250
,共4页
陶瓷化涂层%稀土氧化物%屏蔽性能
陶瓷化塗層%稀土氧化物%屏蔽性能
도자화도층%희토양화물%병폐성능
ceramic coating%rare earth oxides%shielding property
介绍了一种砂型铸造用新型陶瓷化涂料,并研究了稀土氧化物对纳米氧化铝复合陶瓷化涂料层显微组织及性能的影响.试验指出,稀土氧化物可降低陶瓷化涂层的烧结温度,提高其致密性和表面硬度,从而大大增加了铸造用陶瓷化涂层的高温屏蔽性能和抗高温金属液的冲刷能力,对于阻隔硫、碳和氮等气体侵入金属基体和减少冲砂以及夹砂等表面缺陷,起了积极的作用.
介紹瞭一種砂型鑄造用新型陶瓷化塗料,併研究瞭稀土氧化物對納米氧化鋁複閤陶瓷化塗料層顯微組織及性能的影響.試驗指齣,稀土氧化物可降低陶瓷化塗層的燒結溫度,提高其緻密性和錶麵硬度,從而大大增加瞭鑄造用陶瓷化塗層的高溫屏蔽性能和抗高溫金屬液的遲刷能力,對于阻隔硫、碳和氮等氣體侵入金屬基體和減少遲砂以及夾砂等錶麵缺陷,起瞭積極的作用.
개소료일충사형주조용신형도자화도료,병연구료희토양화물대납미양화려복합도자화도료층현미조직급성능적영향.시험지출,희토양화물가강저도자화도층적소결온도,제고기치밀성화표면경도,종이대대증가료주조용도자화도층적고온병폐성능화항고온금속액적충쇄능력,대우조격류、탄화담등기체침입금속기체화감소충사이급협사등표면결함,기료적겁적작용.
A new ceramic coating for sand casting is presented, and the effects of rare earth oxides on the microstructure and properties of the nanometer Al_22O_3 ceramic coating have been investigated. The results show that adding suitable amount of rare earth oxides can lower the sintering temperature of Al_2O_3 ceramic coating and increase its density and surface hardness, thereby greatly increasing the high-temperature shielding property and erosion-resistant ability of ceramic coating to liquid metal, which played a positive role in obstructing the intrusion of sulfur, carbon and nitrogen gases to the matrix and reducing sand inclusion and other surface defects.