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Morphology of Aluminum Alloy Foams Produced with Dolomite via Partial Sintering of Precursors

机译：前驱体部分烧结白云石生产铝合金泡沫的形态

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摘要

Highly expanded, low-cost aluminum-based foams were successfully produced via powder metallurgy using dolomite as foaming agent. Nickel additions (5–15 wt.%) were explored in order to reduce the temperature disparity between dolomite decomposition and the melting range of the metallic matrix. Specific Al–Ni compositions provide appropriate viscosities for effective encapsulation of CO2 gas released during dolomite decomposition. A partial sintering step of compacted precursors was introduced prior to foaming, which resulted in high porosity levels (~86%) and significant volume expansion (~250%) in the final product. The partial sintering technique was a key determining factor in obtaining stable, highly expanded cellular structures with homogeneous pores, averaging 3 mm in size and being morphologically comparable with ALPORAS^TM foams.

机译：通过使用白云石作为发泡剂的粉末冶金成功地生产了高度膨胀的低成本铝基泡沫。为了减少白云石分解和金属基质的熔化范围之间的温度差异，探索了添加镍（5-15 wt。％）的方法。特定的Al-Ni成分为有效封装白云石分解过程中释放的CO2气体提供了适当的粘度。在发泡之前引入了压实前体的部分烧结步骤，这导致了最终产品中的高孔隙率（〜86％）和显着的体积膨胀（〜250％）。部分烧结技术是获得具有均匀孔，尺寸平均3 mm并在形态上可与ALPORAS ^{TM 泡沫相媲美的稳定，高度膨胀的多孔结构的关键决定因素。}

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期刊名称 Materials
作者
Ana Maria Medina Ramirez; Ramona Roxana Vintila; Robin A. L. Drew;
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作者单位

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年(卷),期 2019(12),10
年度 2019
页码 1691
总页数 19
原文格式 PDF
正文语种
中图分类外科学;
关键词
aluminum foam dolomite foaming agent powder metallurgy;

机译：泡沫铝;白云石发泡剂;粉末冶金;

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专利

1. Reproducibility of Aluminum Foam by Combining Sintering and Dissolution Process with Precursor Foaming Process [J] . Hangai Yoshihiko, Matsushita Hayato, Koyama Shinji, Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2017,第7期

机译：用前体发泡过程结合烧结和溶出过程铝泡沫的再现性
2. DOLOMITE WASTE RECOVERY FOR PRODUCING ALUMINUM METAL FOAMS VIA LIQUID METALLURGY [J] . D. P. PAPADOPOULOS, S. A. TSIPAS Journal of Environmental Protection and Ecology . 2012,第3期

机译：通过液态冶金生产铝泡沫泡沫的白云石废料回收
3. Functionally graded aluminum foam consisting of dissimilar aluminum alloys fabricated by sintering and dissolution process [J] . Yoshihiko Hangai, Tomoaki Morita, Takao Utsunomiya Materials Science and Engineering . 2017,第JUNa1期

机译：功能梯度泡沫铝，由不同铝合金通过烧结和溶解工艺制成
4. The Mechanical Properties of Al-Mg Alloy Foams Produced by Powder Sintering using Boric Acid H_3BO_3 as Foaming Agent [C] . İbrahim Çelikyürek, Neşe Ö. Körpe, N. Başak Hatırnaz, European Powder Metallurgy Association;Euro International powder metallurgy congress exhibition . 2014

机译：以硼酸H_3BO_3为发泡剂的粉末烧结铝镁合金泡沫的力学性能
5. Wetting behaviour of aluminum alloys on ceramic substrates and its effect on the stability of aluminum foams. [D] . Klinter, Andreas. 2010

机译：铝合金在陶瓷基材上的润湿行为及其对泡沫铝稳定性的影响。
6. Fabrication of Aluminum Tubes Filled with Aluminum Alloy Foam by Friction Welding [O] . Yoshihiko Hangai, Yukiko Nakano, Shinji Koyama, 2015

机译：摩擦焊法制备铝合金泡沫填充铝管
7. Effect of Magnesium Addition on the Cell Structure of Foams Produced From Re-melted Aluminum Alloy Scrap [O] . G. S. Vinod-Kumar, K. Heim, J. Jerry, 2017

机译：镁添加对重新熔化铝合金废料生产泡沫细胞结构的影响
8. Final Technical Report: Lost Foam Thin Wall: Feasibility of Producing Lost Foam Castings in Aluminum and Magnesium Based Alloys, Project Period (January 2004-March 31, 2014) [R] . Fasoyinu, Y, Griffin, JA 2014

机译：最终技术报告：消失模型薄壁：在铝和镁基合金中生产消失模铸造件的可行性，项目期间（2004年1月 - 2014年3月31日）

Morphology of Aluminum Alloy Foams Produced with Dolomite via Partial Sintering of Precursors

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