Geschichte der Schützengilden von Berlin nach handschriftlichen Urkunden und Mittheilungen

Bibliografische Daten

Fußnote:: Open Access; Namensnennung 4.0 International; Ulrichs+; P-ISSN bis 1992 0334-181X

Verfasser:: Raza, Ali; Junjie, Zhang; Shiwen, Xu; Umar, Muhammad; Chengfang, Yuan

Titel:: Experimental analysis of frost resistance and failure models in engineered cementitious composites with the integration of Yellow River sand

Zusammenfassung:: Abstract: This study investigates the potential use of Yellow River sand (YRS) sourced from the lower reaches of the Yellow River in China as a sustainable and cost-effective substitute for quartz sand in engineered cementitious composites (ECCs). This region accumulates around 400 million tons of sand annually. The study evaluates the impact of different YRS replacement percentages (0, 25, 50, 75, and 100%) on mechanical and microstructure properties under freeze-thaw conditions, focusing on assessing the ECC durability during cooling cycles. The results show that YRS exhibits a smaller normal distribution of particle sizes compared to that of quartz sand and a 5.77 times greater specific surface area, affecting the ECC particle size distribution. After 300 cooling cycles, the R25 group maintains 97.5% of the initial mass and 79.4% of flexural strength, indicating superior durability. The R25 group also demonstrates a minimal decrease of 11.5% in equivalent bending strength, reaching a level of 104.4% compared to R0. The R25 group’s porosity is 30.80%, with an average pore size of 20.47 mm, showing 1.3% and 6.7% decreases compared to the R0 group. Additionally, this study establishes a failure progression equation using the Weibull probability distribution model, with calculated values closely aligning with measured values. Overall, this study recommends using YRS as a sustainable ECC material.

Schlagworte:: engineering cementitious materials ; mechanical properties ; sustainable development ; damage model ; durability ; micromechanical properties