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    題名: Experiments of WAAM Laminated Conditions On Aluminum Alloy Additive Layers Using Arc Current Reduction Technique
    作者: Greebmalai, Jukkapun;Warinsiriruk, Eakkachai;Hsiao, Chao-Hsiang;Wang, Yin-Tien
    關鍵詞: Wire arc additive manufacturing (WAAM), Double pulse gas metal arc welding (DP-GMAW), Arc current reduction technique, Marine and offshore technology, Electron Backscatter Diffraction (EBSD) analysis
    日期: 2025-06-09
    上傳時間: 2025-09-12 12:06:17 (UTC+8)
    出版者: National Taiwan Ocean University
    摘要: Recent advancements in additive manufacturing have been propelled by innovations in processes, materials, and fabrication techniques. This study focuses specifically on optimizing Wire and Arc Additive Manufacturing (WAAM) within the Gas Metal Arc Welding (GMAW) process. The goal is to build laminated layers using aluminum alloys from
    the five-thousand series. A novel technique is introduced in this research that employs reduced arc-current during the additive layer progress for aluminum alloys, along with a double pulse current in the GMAW process to enhance weldability. The material used for layer addition is ER5356 aluminum wire, which is applied to an Al-5083 substrate.
    This study successfully optimized a close-path structure comprising up to 20 layers. These layers serve as the basis for evaluating laminate formation, effective dimension, and imperfection occurrence to achieve a near-net shape with low additive defects. A thorough evaluation was conducted to identify the suitable conditions for successful laminate buildup.
    Additionally, a metallography analysis was performed to examine the chemical distribution and microstructure grain size. The results revealed insignificant chemical distribution and composition along the additive layer cross section under suitable conditions. Furthermore, the grain size measurements indicate that lower reduced arc current conditions
    led to the formation of finer grains, implying superior mechanical properties. This research provides significant insights into GMAW enhancement for aluminum additive manufacturing, underscoring the importance of process parameters, material choice, and fabrication techniques in obtaining improved laminate formation, microstructure, and mechanical
    performance results. The developed WAAM laminated layers are particularly suitable for fabricating or repairing largescale components such as ship propellers, hull sections, and offshore platform structures. Additionally, the corrosion resistant
    properties of aluminum alloys make them suitable for applications in marine and offshore environments.
    關聯: Journal of Marine Science and Technology 33(2), p.169-179
    DOI: 10.51400/2709-6998.2772
    顯示於類別:[人工智慧學系] 期刊論文

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