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    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/81694


    題名: 粉床熔融成型積層製造回收系統之系統操作條件對粉末篩分效率影響
    作者: 李貴智;LI, GUEI-JHIH
    貢獻者: 機械工程學系
    關鍵詞: 積層製造;粉末回收;粉末篩分
    日期: 2019-08-15
    上傳時間: 2019-09-03 16:38:10 (UTC+8)
    出版者: 國立中央大學
    摘要: 金屬積層製造為目前汽車、航太、軍事工業等領域致力發展的技術,為了符合當今工業應用的需求,金屬積層製造逐漸往大型化、自動化的方向發展,但由於粉末床熔融成型技術(Powder Bed Fusion, PBF)所使用的金屬粉末造價高昂、要求極高,為了降低原料使用成本,本研究研發出一款以長時間運轉為訴求的自動化粉末回收系統,參考業界所需的粉末處理量進行設計,本研究使用氣體輸送的方式減少輸送過程對粉末造成的磨損,待回收的金屬粉末將和輸送氣體一同進入篩分系統,以實驗的方式針對整體系統進行整合,為了深入了解系統效能,以篩分效率、篩分面積作為評估效能優劣的標準。
    在篩分過程中奈米級粉末容易產生篩網堵塞,因此加入超音波振動,測試超音波功率對於篩分過程的影響,找出最適用於自動化粉末回收系統的超音波功率。
    使用最佳超音波功率搭配五種粉末質量流率(100、125、150、175、200 g/min)與不同輸送氣體流量(30、32.5、35、37.5、40、42.5、45 m3/hr)進行實驗,觀察不同系統前端操作條件對於系統效能的影響,以篩分效率評估系統效能,並以篩分面積進行佐證。
    本研究利用粉末的累積質量與影像分析方法計算篩分效率與篩分面積,實驗結果證實篩分面積與篩分效率呈現正比,在系統運轉過程中搭配適合的超音波功率、粉末質量流率與輸送氣體流量,能有效的進行回收粉末與廢棄粉末的分類,因此本套自動化粉末回收系統在實際應用上能降低粉末床熔融成型技術所耗費的原料成本。
    ;Metal additive manufacturing is a technology that is currently being developed in the fields of automobile, aerospace, military industry, etc. In order to meet the needs of today′s industrial applications, but due to the metal powder is expensive and extremely demanding. In order to reduce the cost of raw materials, this research has developed an automated powder recovery system.
    Nano-sized powders are prone to screen clogging during sieving, so ultrasonic vibration is added to test the effect of ultrasonic power on the sieving process to find the best ultrasonic power for the systems.
    Use the best ultrasonic power with five powder mass flow rates and different gas flow rate, Experiments were carried out to observe the effects of different system front-end operating conditions on system performance, and the efficiency of the system was evaluated by screening efficiency, and the screening area was used for evidence.
    In this study, the cumulative mass of the powder and the image analysis method were used to calculate the screening efficiency and the screening area. The experimental results confirmed that the screening area was proportional to the screening efficiency, and the appropriate ultrasonic power, powder mass flow rate and the system were used during the operation of the system. By conveying the gas flow rate, the classification of recycled powder and waste powder can be effectively carried out. Therefore, the automatic powder recovery system of this set can reduce the raw material cost of the powder bed melt molding technology in practical application.
    顯示於類別:[機械工程研究所] 博碩士論文

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