Is this the end of the road for bio-inspired road construction materials?

Q2 Engineering RILEM Technical Letters Pub Date : 2022-09-23 DOI:10.21809/rilemtechlett.2022.156
A. Tabaković
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Abstract

The global road network spans 64.3million km and is of huge significance for the social and economic development. The level of investment in road construction and maintenance is high, e.g. EU €44billion/year (2019), China €614.7billion/year (2019) and US €94billion/year (2019). Despite the level of investment, there has been minimal investment in the development of new asphalt technologies, particularly when compared with R&D investment in other industries, such as the automotive industry. Despite the limited investment, there have been some innovations in asphalt technology. For the past 20 years, researchers have developed bio-inspired asphalt technology, self-healing and bio-binders and have applied them to asphalt pavements. This research has emerged as a response to global warming and the need to reduce both carbon emissions and reliance on oil in asphalt technology. This paper charts the development of two bio-inspired technologies and considers their significance in relation to the need to reduce carbon emissions and oil dependence (in line with the UN strategic goals, specifically: SDG 9, 11 and 12). This paper considers the potential benefits of bio-inspired technologies and outlines the current barriers to their further development. This paper aims to begin a conversation with stakeholders on how to speed up the acceptance of bio-inspired asphalt technologies and their adoption in road design, construction and maintenance. Or is it the case that we have reached the end of the road for bio-inspired road construction materials?
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这是仿生道路建筑材料的终结吗?
全球公路网总长6430万公里,对社会经济发展具有重要意义。道路建设和维护的投资水平很高,例如欧盟440亿欧元/年(2019年),中国6147亿欧元/年(2019年)和美国940亿欧元/年(2019年)。尽管投资水平很高,但与其他行业(如汽车行业)的研发投资相比,新沥青技术的开发投资一直很少。尽管投资有限,但沥青技术已经有了一些创新。在过去的20年里,研究人员开发了仿生沥青技术、自我修复和生物粘合剂,并将它们应用于沥青路面。这项研究的出现是为了应对全球变暖,以及减少碳排放和沥青技术对石油的依赖的需要。本文描绘了两种生物启发技术的发展,并考虑了它们在减少碳排放和石油依赖方面的重要性(符合联合国战略目标,特别是:可持续发展目标9,11和12)。本文考虑了生物启发技术的潜在好处,并概述了目前阻碍其进一步发展的障碍。本文旨在与利益相关者就如何加快接受生物沥青技术及其在道路设计、建设和维护中的应用展开对话。还是说我们已经走到了生物动力道路建筑材料的尽头?
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
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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