標題: 連續式六向等徑轉角反覆擠製機具之開發
Development of a continuous six-directions ECAE processing equipment
作者: 何昇融
Ho, Shen-Jung
徐瑞坤
Hsu, Ray-Quan
機械工程學系
關鍵字: 鎂合金;等徑轉角擠製法;製程時間;半固態鍛造;Magnesium alloy;ECAE;Processing time;Semi-solid forging
公開日期: 2011
摘要: 鎂合金具有質輕、堅固、美觀等優點,現今已廣泛運用在我們的生活周遭。但是鎂合金在常溫之塑性變形能力不佳,因此常透過半固態成形技術來增進鎂合金的成形性。而製作鎂合金半固態成形胚料時,利用等徑轉角擠製法來對鎂合金原素材進行晶粒細化,能對材料在半固態下的成形性有所幫助。 然而傳統等徑轉角擠製法有其缺點存在,尤其部分路徑無法連續擠製、溫度履歷不穩定、並且製程時間過長。 本研究開發了連續式六向等徑轉角反覆擠製機具,此機具利用六向油壓動力,可以不移動模具的情況下連續進行不同路徑與道次的連續轉角擠製、全程維持實驗溫度的穩定、並大量縮短了製程時間。 另一方面,透過連續式六向等徑轉角反覆擠製機具製作不同時間參數的試片,對其作半固態成形試驗。發現縮短等徑轉角擠製製程時間,可以降低對鎂合金半固態成形性的負荷。
Magnesium alloys are widely used in industrial fields because of its properties of light-weight and high strength. Due to the bad formability of the magnesium alloy at room-temperature, semi-solid forming process are often adopted as a method for fabrication of the alloys. To increase the formability of semi-solid forming billet, we use the ECAE (Equal Channel Angular Extrusion) process to achieve grain refinement of the magnesium alloy. Conventional ECAE have many disadvantages: First of all continuous extrusion is almost impossible in ECAE process; The temperature of the billet in the experiment isn’t constant and it takes too much time of the full ECAE process to carry out. In this research, we develop a continuous six-directions ECAE processing equipment. This equipment can perform the different routes and passes in six-directions continuously, without moving the die. Besides, we produced billets by continuous six-directions ECAE with different process time, and then apply these billet to semi-solid forming test. The result of the filling-rate shows that shorten the processing time of the ECAE will ceduce the formability load of the magnesium alloy in semi-solid state.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT079714622
http://hdl.handle.net/11536/44775
Appears in Collections:Thesis