- Title
- Sustainable development of eco-friendly ultra-high performance concrete (UHPC): Cost, carbon emission, and structural ductility
- Creator
- Amran, Mugahed; Murali, G.; Makul, N.; Tang, W. C.; Eid Alluqmani, Ayed
- Relation
- Construction and Building Materials Vol. 398, Issue 22 September 2023, no. 132477
- Publisher Link
- http://dx.doi.org/10.1016/j.conbuildmat.2023.132477
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2023
- Description
- Despite various potential concrete applications, UHPC is only utilized on occasion because of a lack of widely accepted design standards, rigid design requirements, high starting costs, and a lack of contractor experience. The creation and widespread adoption of UHPC design code requirements would motivate industry participants to implement large-scale applications. With the recent efforts of institutes (such as ACI) that identified the use of high-strength steel fibers in concrete as a significant research priority, it becomes highly relevant. According to sources, existing UHPC materials comprise 2% or more steel fibers, accounting for around 30% and 40% of material prices and 40% of carbon emissions, respectively. Moreover, it is discovered that UHPC mostly exhibits a lower structural ductility than conventional concrete applications and frequently collapses early after crack localization. Regarding the sustainability aspect, the technological use of cementitious materials in the design of UHPC supports the concept of sustainable development, enabling slender sections, thereby using less concrete (less cement) that leads to lower embodied energy and CO2 emissions compared to conventional concrete. Therefore, the need to evaluate the major findings of previous researches and exhibit the potential approaches that could lead to lowering fiber volume (to reduce cost) and improve the structural ductility of structural applications of UHPC is urgently required. However, this paper systematically reviews the cost of raw materials, structural behavior, and ductility performance of UHPC. It is also concise and assessed the results of CO2 capturing strategies and uptake in UHPC that are undertaken with the establishment of a framework for manual guidelines as a sustainable UHPC product. This cutting-edge summary should help engineers, consultants, contractors, and others in the construction industry better understand the unique qualities of UHPC, making this long-lasting and eco-friendly construction material seem less mysterious. Professionals will benefit from this analysis by receiving recommendations on how to enhance present design efficiency and develop possible guidelines and standards for a sustainable, low-cost UHPC formula. Because of this, UHPC can be widely used as a sustainable, long-term solution for civil engineering buildings and networks.
- Subject
- CO2 uptake; cementitious materials; Sustainable Development Goals; cost; fibers; sustainability; ductility performance; SDG 7; SDG 9; SDG 13; SDG 17
- Identifier
- http://hdl.handle.net/1959.13/1487150
- Identifier
- uon:52064
- Identifier
- ISSN:0950-0618
- Language
- eng
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