摘要
采用未浸表面改性剂直接热浸铝、浸表面改性+热浸铝两种不同的表面处理工艺分别对钢基体外表面进行处理,利用镶铸法制备钢-铝双金属复合材料,研究了复合铸件铸态和T6态的界面组织和结合性能。结果表明,直接浸铝铸件在Fe-Al交界处存在缝隙,未形成冶金结合层,其界面结合情况较未处理铸件有所改善,界面结合力提高了21.23%,达到60.30kN,缝隙率降至10.99%;改性+浸铝铸件存在Fe-Al、Al-Al两种界面,在Fe-Al界面处出现"锯齿状"冶金过渡层,界面剪切强度较直接浸铝铸件提高13.85%以上,缝隙率降至2.93%。改性+浸铝铸件T6热处理后,过渡层厚度明显增加,"锯齿"平均长度由31μm增至46μm,且过渡层成分逐渐均匀化,界面结合力增至79.71kN。
Steel-Aluminum compound materials were fabricated by inlay casting with un-modification &hot-dip aluminizing(U&H)and surface modification &hot-dip aluminizing(S&H)treated steel as sub-strates ,and the as-cast and T6 heat treatment microstructures and bonding properties of Fe/Al inter-face were investigated.The U&H casting samples reveal that a variety of gaps exist and metallurgical bonding is absent at the Fe-Al interface.Compared with untreated ones,the interfacial combination of U&H castings is improved,where the bonding force reaches 60.30 kN,increased by 21.23% ,and the gap rate is reduced to 10.99% .However,the composite casting samples with S&H treatment reveal the satisfied interface properties with two kinds of interfaces including Fe-Al and Al-Al.The occurrence of“zigzag-shape”transition layer at the Fe-Al interface indicates the existence of metallurgical bonding. Compared with those of U&H castings,the interfacial bonding strength of casting with S&H treatment is improved by more than 13.85% and the gap rate is reduced as low as 2.93% .After T6 heat treatment of S&H modified castings,the thickness of transition layer is increased significantly,especially the“zig-zag”whose average length is increased from 31μm to 46μm.And the composition of transition layer is more homogeneous,improving the interfacial force up to 79.71 kN.
出处
《特种铸造及有色合金》
CAS
CSCD
北大核心
2015年第5期516-519,共4页
Special Casting & Nonferrous Alloys
基金
国家自然科学基金资助项目(51375187
51204124)
关键词
镶铸复合法
钢/铝双金属
界面
热浸铝
Inlay Casting
Steel-Al Compound Materials
Interface
Hot-dip Aluminizing
