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Title of Paper:Effect of bauxite aggregate in cement composites on mechanical properties and resistance against high-velocity projectile impact
Journal:Cement and Concrete Composites
Key Words:Bauxite; Granite; Strength; Elastic modulus; Hardness; Projectile impact; Concrete; UHPC
Summary:This paper investigates the effect of the bauxite sand and coarse aggregate on the quasi-static mechanical properties and resistance against high-velocity projectile impact of cement composites with 28-day compressive strengths from 34.2 to 197.2 MPa, in comparison to that of the siliceous sand and granite coarse aggregate. Mechanical properties investigated include compressive strength, elastic modulus, compressive stress-strain behavior, splitting tensile strength, and effective hardness index. Impact resistance was evaluated using 8.0-mm-diameter, 7.8-g-mass, conical-nosed projectiles at velocities of approximately 400 m/s. The results indicate that the bauxite sand and coarse aggregate are beneficial for enhancing mechanical properties and impact resistance of cement composites compared to the siliceous sand and granite coarse aggregate. The concrete incorporating both bauxite sand and coarse aggregate exhibits compressive strength of about 200 MPa and elastic modulus of about 105 GPa at 28 days under ambient curing conditions, and better impact resistance than a granite rock specimen. This study will provide insights into the development of advanced cement composites with superior mechanical properties and impact resistance for protective structures.
First Author:Fengling Zhang
Correspondence Author:Leong Hien Poh
All the Authors:Min-Hong Zhang
Indexed by:Journal paper
Discipline:Engineering
First-Level Discipline:Civil Engineering
Document Type:J
Volume:118
Page Number:103915
Impact Factor:7.586
DOI Number:10.1016/j.cemconcomp.2020.103915
Translation or Not:No
Date of Publication:2021-04
Included Journals:SCI
Links to Published Journals:https://www.sciencedirect.com/science/article/abs/pii/S0958946520304194
Release Time:2021-04-01
AttachmentsPrev One:Ultra-high performance concrete subjected to high-velocity projectile impact: implementation of K&C model with consideration of failure surfaces and dynamic increase factors
Next One:Engineering high-performance cementitious matrices for improved projectile impact resistance with silane, micro fibrillated cellulose and fine calcined bauxite aggregate
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