Pengaruh Fraksi Berat Serbuk Alumina Terhadap Porositas Busa Aluminium Hasil Injeksi Gas

SPROCKET JOURNAL OF MECHANICAL ENGINEERING Pub Date : 2021-08-22 DOI:10.36655/sprocket.v3i1.578

Edy Yulianto

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Abstract

Aluminum foam is a very interesting material to develop. This material is a material that has a combination of characteristics between physical and mechanical properties such as high stiffness and low density. There are several processes for making aluminum foam that have been developed, either through the liquid, solid, or gas phases. And of these various processes, the process of making aluminum foam through the liquid phase by using the gas injection method is the simplest and cheapest process. The principle of the process of making aluminum foam with this method is that bubbles are produced from the process of blowing the gas into the aluminum liquid in which there are additive particles that function as a bubble stabilizer. These stable bubbles will become pores after the aluminum liquid solidifies. This research will discuss the effect of the weight fraction of alumina powder with an average size of 5.77 μm added to liquid aluminum on the macro-pore structure in the form of shape and size as well as the spread of the resulting pores. And the result is that the optimal weight fraction of adding alumina powder is 15%, where the resulting pores have a more homogeneous and evenly shaped and sized.

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冲积铝的重量成分对气体喷射的铝制泡沫体的影响

泡沫铝是一种非常有趣的材料。这种材料是一种结合了高刚度和低密度等物理和机械特性的材料。已经开发的制造泡沫铝的方法有几种，有的是通过液相，有的是通过固相，有的是通过气相。而在这些不同的工艺中，采用注气法通过液相制备泡沫铝的工艺是最简单、最经济的工艺。用这种方法制造泡沫铝的过程原理是，将气体吹入铝液的过程中产生气泡，铝液中有作为气泡稳定剂的添加剂颗粒。这些稳定的气泡在铝液凝固后会变成孔隙。本研究将探讨平均粒径为5.77 μm的氧化铝粉的质量分数对铝液中宏观孔结构的影响，包括孔的形状和大小以及孔的扩展。结果表明，添加氧化铝粉的最佳质量分数为15%，所得到的孔隙形状和大小更加均匀均匀。

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SPROCKET JOURNAL OF MECHANICAL ENGINEERING

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