Effect of processing parameters on microstructures and mechanical properties of rapidly solidified AlFeVSi hot-extruded product

来源期刊：中国有色金属学报(英文版)2003年第3期

论文作者：肖于德 黎文献 谭敦强 马正青 王日初

文章页码：558 - 563

Key words：spray deposition; extrusion; rapid solidification; heat-resistant aluminum alloy

Abstract: Rapidly solidified blanks of Al-8.5Fe-1.3V-1.7Si aluminum alloy were prepared by using two methods of cold-isostatically pressing of atomized powder and spray deposition of melt metal. Influence of processing parameters, such as extrusion ratio, aspect ratio of cross section of extruded product, extrusion temperature and heating time on microstructures and mechanical properties of rapidly solidified AlFeVSi aluminum alloys was studied by means of optical microscopy, X-ray diffractometry, transmission electron microscopy and measurement of tensile properties. Suitable processing parameters were selected to extrude spray deposited blanks into large size pipes. The results show that the effect of extrusion ratio and aspect ratio on microstructures and mechanical properties of rapidly solidified AlFeVSi aluminum alloys can be evaluated by calculating parameter R_s, and the value of R_s ought to be at least close to 6 in order to obtain high performance extruded product with good binding state. With the increase of extrusion temperature and heating time, the dispersed Al₁₂(Fe,V)₃Si particles congregate and coarsen in α(Al) matrix，and the coarse lumpish θ-Al₁₃Fe₄ phase appears in the alloy extruded above 500℃. Therefore, lowering extrusion temperature and shortening exposure time at high temperature through multistage heating are of benefit to changing microstructures and improving mechanical properties of the extruded product. The large size pipes of spray deposited AlFeVSi aluminum alloy extruded at 490℃ in the condition of R_s being close to 6 and multistage heating have excellent tensile strength and plasticity at room and higher temperature.