Direct fabrication of unsupported inclined aluminum pillars based on uniform micro droplets deposition

• Published in: International journal of machine tools & manufacture Vol. 116; pp. 18 - 24
• Main Authors: Zhang, Daicong, Qi, Lehua, Luo, Jun, Yi, Hao, Hou, Xianghui
• Format: Journal Article
• Language: English
• Published: Elmsford Elsevier Ltd 01.05.2017; Elsevier BV
• Subjects: Aluminum; Deposition; Droplets; Feasibility studies; Fusion; Fusion ratio; Heat transfer; Inclined aluminum pillars; Melting; Metallurgical analysis; Methods; Micro droplets deposition; Offset ratio; Pillars; Trigonometric functions; Micro droplets deposition; Fusion ratio; Inclined aluminum pillars; Offset ratio
• ISSN: 0890-6955; 1879-2170
• DOI: 10.1016/j.ijmachtools.2017.01.001

In order to investigate forming directly complex parts without support materials or structures by uniform micro droplets deposition technique, the present work focus on fabricating the unsupported inclined aluminum pillars through offset deposition. An experimental system is developed to produce and deposit uniform molten aluminum droplets. A model is introduced to describe the inclined angle of the droplet deposition at different offset ratios. A one dimensional heat transfer model is proposed to help select the initial temperature parameters of the impinging droplet and the previous solidified droplet to ensure that the fusion occurs. No melting, partial melting and excessive melting region at different offset ratios are determined. The correspondence between offset ratio and inclined angle is considered to be a simple cosine function, and the hypothesis is verified by experiments. The influence of deposition error on an inclined angle of pillars is studied. Internal microstructure of droplet fusion is observed in order to ensure good metallurgical bonding. All of these studies show the feasibility of fabricating directly unsupported inclined aluminum pillars in the limited angle range by using uniform micro droplets. •A method fabricating directly unsupported inclined aluminum pillars is proposed.•The correspondence between overlapping ratio and inclined angle is established.•Good metallurgical bonding occurs in the fusion interface between droplets.