Principal Investigators/Researcher

Nader Ghafoori, Meysam Najimi, Ê×Ò³| Â鶹´«Ã½Ó³»­

Project Description

This study aims to develop optimized non-propriety UHPCs capable of supporting strength, ductility, and durability required for long-lasting high speed railroad sleepers. Furthermore, this study will use Portland cement, supplementary cementitious materials, regular sand, various combinations of silica to conventional natural sand, different fiber contents and types, and larger aggregate size to produce non-propriety UHPCs with production costs comparable to those of currently manufactured prestressed concrete sleepers.

Final Report

Output

4 journal paper, 1 dissertation

• Hasnat, A.* & Ghafoori, N. (2024). Transport Properties and De-icing Salt Resistance of Blended Ultra-High-Performance Concrete. Journal of Cold Regions Engineering, ASCE 38(2), 04024003 .
• Hasnat, A.* & Ghafoori, N. (2021). Properties of Ultra-High-Performance Concrete Using Optimization of Traditional Aggregates and Pozzolans. Construction and Building Materials, Elsevier, 299, 123907.
• Hasnat, A.* & Ghafoori, N. (2021). Freeze-Thaw Resistance of Non-Proprietary Ultra-High-Performance Concrete. Journal of Cold Regions Engineering, ASCE, 35 (3), 04021008.
• Hasnat, A.* & Ghafoori, N. (2021). Abrasion Resistance of Ultra-High-Performance Concrete for Railway Sleepers. Journal of Urban Rail Transit. Springer, 7 (2), 101-116.
• Ariful Hasna, Development of Non-Proprietary Ultra-High-Performance Concrete and Railway Tie Application, Dissertation of Civil Engineering at the University of Nevada Las Vegas, 2024.