Title:
Performance Limits for Evaluating Supplementary Cementing Materials Using Accelerated Mortar Bar Test
Author(s):
Michael D. A. Thomas, Benoit Fournier, Kevin J. Folliard, Medhat H. Shehata, Jason H. Ideker, and Chris Rogers
Publication:
Materials Journal
Volume:
104
Issue:
2
Appears on pages(s):
115-122
Keywords:
aggregate; mortar; pozzolan; slag
DOI:
10.14359/18573
Date:
3/1/2007
Abstract:
The accelerated mortar bar test (AMBT) was originally developed for the purpose of identifying alkali-silica reactive aggregates, but has been widely used to evaluate the preventive action of supplementary cementing materials (SCM). Indeed, a modified version of the AMBT for testing the effectiveness of pozzolans and slag for controlling expansion due to alkali-silica reaction (ASR) was recently developed and published as an ASTM standard test method (ASTM C 1567). In this paper, results from accelerated mortar bar tests on reactive aggregate-SCM combinations are compared with the performance of the same combination of materials in concrete structures, field-exposed concrete blocks, and laboratory expansion tests on concrete prisms (ASTM C 1293). It is concluded that the use of a 14-day expansion limit of 0.10% in the AMBT produces an outcome that agrees well with the performance of concrete in the laboratory or under field conditions. Combinations of reactive aggregates and SCM that pass this limit when tested in mortar have a very low risk of resulting in damage when used in concrete. Furthermore, the minimum level of SCM required to control expansion with a given reactive aggregate can be determined using the 14-day expansion limit and the result is in good greement with the amount of SCM required to prevent cracking in concrete. Extending the duration of the test (for example to 28 days) is overly onservative and results in estimates of much higher levels of SCM (by 1.5 times on average) to control expansion than that actually required in concrete.