金属热处理
金屬熱處理
금속열처리
HEAT TREATMENT OF METALS
2015年
4期
98-101
,共4页
3Cr13涂层%电弧喷涂%正交试验%耐磨性%孔隙率
3Cr13塗層%電弧噴塗%正交試驗%耐磨性%孔隙率
3Cr13도층%전호분도%정교시험%내마성%공극솔
3Cr13 coating%arc spraying%orthogonal experiment%wear resistance%porosity
采用电弧喷涂技术在Q235钢表面制备3Cr13涂层,利用正交试验法研究了喷涂工艺参数对涂层硬度、孔隙率和磨损质量损失的影响。结果表明,在研究范围内,影响涂层硬度和磨损质量损失最主要的参数为喷涂电流,影响涂层孔隙率的最主要因素为喷涂距离。优化的工艺参数为喷涂电流120 A,喷涂电压32 V,喷涂距离230 mm、喷涂气压0.5 MPa,涂层硬度达608 HV0.1,孔隙率13.65%,磨损质量损失为3.10 mg,综合性能较好。
採用電弧噴塗技術在Q235鋼錶麵製備3Cr13塗層,利用正交試驗法研究瞭噴塗工藝參數對塗層硬度、孔隙率和磨損質量損失的影響。結果錶明,在研究範圍內,影響塗層硬度和磨損質量損失最主要的參數為噴塗電流,影響塗層孔隙率的最主要因素為噴塗距離。優化的工藝參數為噴塗電流120 A,噴塗電壓32 V,噴塗距離230 mm、噴塗氣壓0.5 MPa,塗層硬度達608 HV0.1,孔隙率13.65%,磨損質量損失為3.10 mg,綜閤性能較好。
채용전호분도기술재Q235강표면제비3Cr13도층,이용정교시험법연구료분도공예삼수대도층경도、공극솔화마손질량손실적영향。결과표명,재연구범위내,영향도층경도화마손질량손실최주요적삼수위분도전류,영향도층공극솔적최주요인소위분도거리。우화적공예삼수위분도전류120 A,분도전압32 V,분도거리230 mm、분도기압0.5 MPa,도층경도체608 HV0.1,공극솔13.65%,마손질량손실위3.10 mg,종합성능교호。
The 3Cr13 coatings were prepared by arc spraying technology on Q235 steel,and orthogonal experimental method was used to investigate the influence of the spraying parameters on micro hardness,porosity and wear mass loss of the sprayed coatings. The results show that the spray current is the most significant factor to affect the micro hardness of the coating,while spray distance is the most significant factor to affect the porosity and wear mass loss of the coating in the experimental range. The optimum spray parameters are that the 120 A of spray current,32 Vof spray voltage,230 mm of spray distance,and 0. 5 MPa of spray pressure. The 3Cr13 coating produced with the optimum parameters shows good comprehensive performance: the micro hardness is 608 HV0. 1, the porosity is 13. 65%, and the wear mass loss is 3. 10 mg.
