%0 Journal Article
%T 泡沫铝新材料的制备工艺及绿色建筑应用研究
Preparation Process of New Foam Aluminum Materials and Application in Green Building
%A 吴承昊
%J Advances in Material Chemistry
%P 364-371
%@ 2331-0146
%D 2025
%I Hans Publishing
%R 10.12677/amc.2025.133038
%X 泡沫铝作为一种兼具轻量化、多孔结构与多功能特性的新型材料,在绿色建筑领域展现出广阔应用前景。本文系统梳理了其制备工艺进展,包括熔体发泡法的发泡剂优化与参数调控、粉末冶金法的孔隙精准设计、渗流铸造法的预制体创新及3D打印等新兴技术,强调通过绿色制备与复合工艺实现性能提升与环境友好性平衡。性能研究表明,泡沫铝具有优异的隔热、隔音与吸能特性,可替代传统建材构建高效保温墙体、声学屏障与抗震结构。在创新应用中,其艺术化装饰潜力与模块化快速搭建特性,推动了临时建筑与灾后应急场景的可持续发展。经济与环保分析指出,尽管初期成本较高,但全生命周期内节能效益与可回收性使其碳足迹较传统材料减少,结合政策支持与社会接受度提升,具备显著竞争优势。未来研究需突破规模化生产瓶颈,开发智能响应结构与跨学科集成技术,以推动泡沫铝成为“碳中和”建筑的核心材料,助力城市生态转型与资源循环体系构建。
Foam aluminum, as a new material with lightweight, porous structure, and multifunctional properties, has shown broad application prospects in the field of green buildings. This paper systematically reviews its preparation process advancements, including the optimization of foaming agents and parameter control in melt foaming, precise pore design in powder metallurgy, innovative preforms in infiltration casting, and emerging technologies such as 3D printing. It emphasizes achieving performance enhancement and environmental friendliness through green preparation and composite processes. Performance studies indicate that foam aluminum possesses excellent thermal insulation, soundproofing, and energy absorption characteristics, making it suitable for constructing efficient insulated walls, acoustic barriers, and seismic structures to replace traditional building materials. In innovative applications, its potential for artistic decoration and modular rapid assembly has promoted sustainable development in temporary buildings and post-disaster emergency scenarios. Economic and environmental analyses show that although initial costs are high, the energy-saving benefits and recyclability over the entire lifecycle reduce its carbon footprint compared to traditional materials. Combined with policy support and increased social acceptance, it offers significant competitive advantages. Future research needs to overcome production scale bottlenecks, develop intelligent responsive structures and interdisciplinary integration technologies, to promote foam aluminum as a core material for “carbon-neutral” buildings, contributing to urban ecological transformation and the construction of resource recycling systems.
%K 泡沫铝,
%K 绿色建筑,
%K 碳中和,
%K 应用研究
Foam Aluminum
%K Green Building
%K Carbon Neutral
%K Applied Research
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=119974