在Sn99.3Cu0.7钎料合金中添加不同含量的合金元素铟,并进行了铺展试验和润湿平衡试验。结果表明,随铟含量从0%增大到0.406%时,Sn Cu In钎料合金的焊接性能先提高后下降。与不添加合金元素铟相比,添加0.301%铟时Sn99.3Cu0.7钎料合金的铺...在Sn99.3Cu0.7钎料合金中添加不同含量的合金元素铟,并进行了铺展试验和润湿平衡试验。结果表明,随铟含量从0%增大到0.406%时,Sn Cu In钎料合金的焊接性能先提高后下降。与不添加合金元素铟相比,添加0.301%铟时Sn99.3Cu0.7钎料合金的铺展面积增大16.3%、润湿时间缩短32.1%、最大润湿力增大29.7%。合金元素铟的优选含量为0.301%。展开更多
The microstructural observation,the mass loss test,potentiodynamic polarization measurements and corrosion morphology examinations were conducted to study the influence of microstructural characteristics on corrosion ...The microstructural observation,the mass loss test,potentiodynamic polarization measurements and corrosion morphology examinations were conducted to study the influence of microstructural characteristics on corrosion behavior of Mg–5Sn–3In alloys in Hank’s solution after extrusion.The results show that the corrosion rate of the as-cast alloy is similar to that of as-extruded alloy;however,the local corrosion susceptibility is greatly weakened in the as-extruded alloy,especially in the extrusion direction.The relatively uniform corrosion morphology of the as-extruded alloy is attributed to refined Mg_(2)Sn particles,uniform distribution of Mg_(2)Sn particles and favorable crystal orientation.Meanwhile,the cytotoxicity tests confirm that the Mg–5Sn–3In alloy exhibits cytotoxicity of Grade 0−1 for NIH3T3 cells,suggesting an acceptable cytotoxicity of this alloy in the vitro assay.展开更多
文摘在Sn99.3Cu0.7钎料合金中添加不同含量的合金元素铟,并进行了铺展试验和润湿平衡试验。结果表明,随铟含量从0%增大到0.406%时,Sn Cu In钎料合金的焊接性能先提高后下降。与不添加合金元素铟相比,添加0.301%铟时Sn99.3Cu0.7钎料合金的铺展面积增大16.3%、润湿时间缩短32.1%、最大润湿力增大29.7%。合金元素铟的优选含量为0.301%。
基金the National Key Research and Development Program of China(No.2017YFA0403803)the National Natural Science Foundation of China(Nos.52022017,51974058,51525401,51927801,81974325)+1 种基金the Science and Technology Commission of Shanghai Municipality,China(No.18ZR1428700)the Liaoning Revitalization Talents Program,China(No.XLYC1808005).
文摘The microstructural observation,the mass loss test,potentiodynamic polarization measurements and corrosion morphology examinations were conducted to study the influence of microstructural characteristics on corrosion behavior of Mg–5Sn–3In alloys in Hank’s solution after extrusion.The results show that the corrosion rate of the as-cast alloy is similar to that of as-extruded alloy;however,the local corrosion susceptibility is greatly weakened in the as-extruded alloy,especially in the extrusion direction.The relatively uniform corrosion morphology of the as-extruded alloy is attributed to refined Mg_(2)Sn particles,uniform distribution of Mg_(2)Sn particles and favorable crystal orientation.Meanwhile,the cytotoxicity tests confirm that the Mg–5Sn–3In alloy exhibits cytotoxicity of Grade 0−1 for NIH3T3 cells,suggesting an acceptable cytotoxicity of this alloy in the vitro assay.
