( 1.東北大學 軋制技術及連軋自動化國家重點實驗室,沈陽 110004;
2.東北大學 材料與冶金學院, 沈陽 110004)
摘 要: 借鑒TLP連接技術在其它領域的最新研究進展, 提出利用4045鋁合金為中間層材料,采用軋制復合的方法生產(chǎn)不銹鋼-3003鋁合金復合板的新工藝。 研究結果表明: 在加熱溫度為570 °C的條件下,依靠軋制過程中產(chǎn)生的變形熱, 中間層4045鋁合金出現(xiàn)了理想的瞬間液化現(xiàn)象, 復合界面處發(fā)生了一系列類似于TLP連接過程的物理冶金行為, 兩種基體實現(xiàn)了良好的復合, 復合板的主要力學性能得到了明顯的改善。 提出了軋制復合工藝中TLP連接過程的四階段模型, 認為中間層熔化階段是該工藝的技術核心。
關鍵字: 復合; TLP連接; 中間層; 擴散; 界面
( 1. State Key Laboratory of Rolling Technology and Automation,
Northeastern University, Shenyang 110004, China;
2. School of Materials and Metallurgy, Northeastern University, Shenyang 110004, China)
Abstract: In the light of recent development of TLP joining techniques in other fields, the new technology of preparing bonding plates of stainless steel/A3003 was presented using hot-rolling when A4045 aluminum alloy was used as intermediate materials. The results show that at 570 °C depending on the heat gained from deforming, there are perfect transient liquid phases in intermediate layer A4045 aluminum alloy and a series of physical metallurgical behaviors like TLP jointing process on the bonding interface. The interface of two types of core materials gains good bonding and the main mechanical performances of bonding plates are improved markedly. In the experiment, the model of TLP joining was provided and technical core of this process is the melting step inside intermediate materials.
Key words: bonding; TLP joining; intermediate layer; diffusion; interface
