TY - JOUR
T1 - Evaluation of zirconia modification on the durability of natural fiber-reinforced cement composites using accelerated aging
AU - Song, Helong
AU - Liu, Tao
AU - Gauvin, Florent
AU - Brouwers, H.J.H. (Jos)
PY - 2024/5/1
Y1 - 2024/5/1
N2 - In this research, the main target focuses on accelerating aging tests for the evaluation of durability performance on ZrO2-modified fiber-reinforced cement composites. Then, the study focuses on the comparison between two alkali-resistance behaviors (i.e. alkali hydrolysis and mineralization) of unmodified and ZrO2-modified fibers in various controlled alkali solutions. For such purposes, the mechanical strengths of the composites under accelerating aging were measured. The thermal stability of embedded fibers, the evolution of hydration products on the fiber surfaces, and the interface compatibility were also studied to understand the mechanism behind the potential enhancement of durability. Besides, the alkali resistance of fibers was investigated by measuring the tensile strength loss. Results show that the composites reinforced with ZrO2-modified fibers retain their high mechanical strength, even when subjected to long-term wetting-drying cycles. Moreover, ZrO2 modification can significantly reduce or even prevent the precipitation of portlandite and ettringite on the surfaces of the embedded fibers. According to alkali resistance tests, fibers with ZrO2 film exhibited superior resistance. The results of the durability of NFRCCs under accelerated aging conditions accelerate their practical application in outdoor building projects.
AB - In this research, the main target focuses on accelerating aging tests for the evaluation of durability performance on ZrO2-modified fiber-reinforced cement composites. Then, the study focuses on the comparison between two alkali-resistance behaviors (i.e. alkali hydrolysis and mineralization) of unmodified and ZrO2-modified fibers in various controlled alkali solutions. For such purposes, the mechanical strengths of the composites under accelerating aging were measured. The thermal stability of embedded fibers, the evolution of hydration products on the fiber surfaces, and the interface compatibility were also studied to understand the mechanism behind the potential enhancement of durability. Besides, the alkali resistance of fibers was investigated by measuring the tensile strength loss. Results show that the composites reinforced with ZrO2-modified fibers retain their high mechanical strength, even when subjected to long-term wetting-drying cycles. Moreover, ZrO2 modification can significantly reduce or even prevent the precipitation of portlandite and ettringite on the surfaces of the embedded fibers. According to alkali resistance tests, fibers with ZrO2 film exhibited superior resistance. The results of the durability of NFRCCs under accelerated aging conditions accelerate their practical application in outdoor building projects.
KW - Hemp fiber
KW - Composites
KW - ZrO2 modification
KW - Durability
KW - Mechanical strengths
KW - ZrO modification
UR - http://www.scopus.com/inward/record.url?scp=85183454650&partnerID=8YFLogxK
U2 - 10.1016/j.jobe.2024.108632
DO - 10.1016/j.jobe.2024.108632
M3 - Article
SN - 2352-7102
VL - 84
JO - Journal of Building Engineering
JF - Journal of Building Engineering
M1 - 108632
ER -