西安工业大学学报
西安工業大學學報
서안공업대학학보
JOURNAL OF XI'AN TECHNOLOGICAL UNIVERSITY
2014年
2期
146-151
,共6页
范新会%杨珂%李炳%李伟%王鑫
範新會%楊珂%李炳%李偉%王鑫
범신회%양가%리병%리위%왕흠
稀土元素Y%Cu基非晶合金%玻璃形成能力%铜模吸铸
稀土元素Y%Cu基非晶閤金%玻璃形成能力%銅模吸鑄
희토원소Y%Cu기비정합금%파리형성능력%동모흡주
rare earth element Y%Cu-based amorphous alloy%glass-forming ability%suction casting copper
研究了添加微量稀土元素Y对Cu基非晶合金的玻璃形成能力和力学性能的影响.通过铜模吸铸法制备Cu-Zr-Al-Y大块非晶合金,利用DSC和XRD分析合金的玻璃形成能力对合金进行室温压缩性能测试,用SEM 分析了微观断口形貌.研究结果表明:适量Y掺入可提高合金的玻璃形成能力,当Y元素掺入量为3%时,Cu47 Zr42 Al8 Y3非晶合金的过冷液相区宽度ΔT达到72.42 K ,有较高的玻璃形成能力;Y元素的掺入有利于提高合金的力学性能,而Cu47 Zr42 Al8 Y1合金有最佳的力学性能,其压缩断裂强度为2140.8 M Pa ,伸长率达到7.17%,且随着Y含量的增加,断裂方式由单一的剪切断裂变为剪切断裂和脆性断裂复合方式.
研究瞭添加微量稀土元素Y對Cu基非晶閤金的玻璃形成能力和力學性能的影響.通過銅模吸鑄法製備Cu-Zr-Al-Y大塊非晶閤金,利用DSC和XRD分析閤金的玻璃形成能力對閤金進行室溫壓縮性能測試,用SEM 分析瞭微觀斷口形貌.研究結果錶明:適量Y摻入可提高閤金的玻璃形成能力,噹Y元素摻入量為3%時,Cu47 Zr42 Al8 Y3非晶閤金的過冷液相區寬度ΔT達到72.42 K ,有較高的玻璃形成能力;Y元素的摻入有利于提高閤金的力學性能,而Cu47 Zr42 Al8 Y1閤金有最佳的力學性能,其壓縮斷裂彊度為2140.8 M Pa ,伸長率達到7.17%,且隨著Y含量的增加,斷裂方式由單一的剪切斷裂變為剪切斷裂和脆性斷裂複閤方式.
연구료첨가미량희토원소Y대Cu기비정합금적파리형성능력화역학성능적영향.통과동모흡주법제비Cu-Zr-Al-Y대괴비정합금,이용DSC화XRD분석합금적파리형성능력대합금진행실온압축성능측시,용SEM 분석료미관단구형모.연구결과표명:괄량Y참입가제고합금적파리형성능력,당Y원소참입량위3%시,Cu47 Zr42 Al8 Y3비정합금적과랭액상구관도ΔT체도72.42 K ,유교고적파리형성능력;Y원소적참입유리우제고합금적역학성능,이Cu47 Zr42 Al8 Y1합금유최가적역학성능,기압축단렬강도위2140.8 M Pa ,신장솔체도7.17%,차수착Y함량적증가,단렬방식유단일적전절단렬변위전절단렬화취성단렬복합방식.
The effects of Y addition on the structural and mechanical properties of Cu-based bulk metallic glass (BMG) were studied .Cu-Zr-Al-Y bulk amorphous alloy was produced by copper mold suction casting .The glass forming ability was evaluated by DSC and XRD .Their compressibility was tested at room temperature and the micro fracture morphology was observed by SEM .The results show :Appropriate Y addition content enhances glass forming ability ,when the incorporation of Y element content is 3% ,Cu47 Zr42 Al8 Y3 amorphous alloy has 72 .42 K of supercooled liquid region with a high glass-forming ability .The incorporation of Y element is helpful to improve the mechanical properties of the alloy .Cu47 Zr44 Al8 Y1 alloy has the best mechanical properties with 2 140 .8 MPa of compression fracture strength and 7 .17% elongation .With the increase of Y content ,the fracture mode changes from single shear fracture to composite mode of shear fracture and brittle fracture .
