Nanomaterials’ Application in Architectural Façades in Italy

Q2 Engineering

Applied Science and Engineering Progress Pub Date : 2022-10-03 DOI:10.14416/j.asep.2022.10.001

Djamil Ben Ghida

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引用次数: 1

Abstract

Nanotechnology and nanomaterials are revolutionizing the construction industry by improving material's durability, strength, and performance. Nanomaterials have a direct impact on building's energy efficiency, façade aesthetics, urban attractiveness, urban pollution, and built heritage preservation. In this paper, it will be confirmed that nanomaterials are providing cutting-edge technical solutions for the European building stock by addressing current biodeterioration and weathering of buildings, reducing CO2 emissions, and having a positive impact on the building sector as a whole, including structure, surface coatings, energy consumption, and COVID-19 outbreak. The methodology used is exploratory and descriptive, with two Italian case studies analysis thrown in for good mixed-methods analysis. The empirical analysis investigates the environmental health and economic benefits of deploying nanotechnology systems in Italian building facades. The objective of the research is to analyze the characteristics and functions of nanoparticles; demonstrating how nano-features can lower energy use, improve contextual urban quality, preserve architectural historical identity, mitigate coronavirus outbreaks, and eventually change the future design thinking process of architects. The paper's originality stems from its synoptic approach and holistic analysis of nanomaterials utilized in Italian façade structures.

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纳米材料在意大利建筑外墙中的应用

纳米技术和纳米材料通过提高材料的耐用性、强度和性能，正在彻底改变建筑行业。纳米材料对建筑的能源效率、外观美学、城市吸引力、城市污染和建筑遗产保护有着直接的影响。在本文中，将证实纳米材料正在为欧洲建筑存量提供尖端技术解决方案，解决当前建筑的生物退化和风化问题，减少二氧化碳排放，并对整个建筑行业产生积极影响，包括结构、表面涂层、能源消耗和新冠肺炎疫情。所使用的方法是探索性的和描述性的，为了进行良好的混合方法分析，引入了两个意大利案例研究分析。实证分析调查了在意大利建筑外墙部署纳米技术系统的环境健康和经济效益。本研究的目的是分析纳米颗粒的特性和功能；展示了纳米特征如何降低能源使用，改善城市环境质量，保护建筑历史特征，缓解冠状病毒的爆发，并最终改变建筑师未来的设计思维过程。该论文的独创性源于其对意大利外墙结构中使用的纳米材料的概要方法和整体分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Science and Engineering Progress Engineering-Engineering (all)

CiteScore

4.70

自引率

0.00%

发文量