Study on Mix Proportion Optimization of Manufactured Sand RPC and Design Method of Steel Fiber Content under Different Curing Methods

• Published in: Materials Vol. 12; no. 11; p. 1845
• Main Authors: Zhong, Chunling, Liu, Mo, Zhang, Yunlong, Wang, Jing
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 06.06.2019; MDPI
• Subjects: Aggregates; Binders (materials); Cement; Composite materials; compressive strength; Concrete mixing; Curing; Design of experiments; Design techniques; Ductility; Fly ash; Laboratories; manufactured sand; Mathematical analysis; Mechanical properties; Microstructure; Optimization; Quartz; Sand; Sand & gravel; Silica fume; Silicon dioxide; Splitting; splitting tensile strength; steel fiber contents; Steel fibers; Tensile strength; Test methods; Ultra high performance concrete; China; compressive strength; manufactured sand; splitting tensile strength; steel fiber contents
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma12111845

This study investigated four factors (water/binder ratio, silica fume, fly ash, and sand/binder ratio) using the orthogonal experimental design method to prepare the mix proportions of a manufactured sand reactive powder concrete (RPC) matrix to determine the optimal matrix mix proportions. On this basis, we assessed the compressive and splitting tensile strengths of different steel fiber contents under natural, standard, and compound curing conditions to develop an economical and reasonable RPC for various engineering requirements. A calculation method for the RPC strength of the steel fiber contents was evaluated. The results showed that the optimum steel fiber content for manufactured sand RPC is 4% under natural, standard, and compound curing conditions. Compared with standard curing, compound curing can improve the early strength of manufactured sand RPC but only has a small effect on the enhancement of late strength. Although the strength of natural curing is slightly lower than that of standard curing, it basically meets project requirements and is beneficial for practical applications. The calculation formula of 28-day compressive and splitting tensile strengths of manufactured sand RPC steel fiber at 0%-4% is proposed to meet the different engineering requirements and the flexible selection of steel fiber content.