Mathematical model for the prediction of cement compressive strength at the ages of 7 and 28 days within 24 hours

Title: Mathematical model for the prediction of cement compressive strength at the ages of 7 and 28 days within 24 hours
Author(s): G. F. Kheder, A. M. Al Gabban, S. M. Abid
Paper category : journal
Serial title: Materials and Structures
Abreviated Serial title: Mater. Struct.
ISSN: 1359-5997
Publisher: RILEM Publications SARL
Volume: 36
Issue: 264
Issue date: 2003-12-01
Publication year: 2003
Pages: 693 - 701
Total Pages: 9
Nb references: 15
Language: English

Abstract: In this study 450 cement mortar cubes were cast from 50 different cement samples taken from 9 different cement factories, to develop a mathematical model that can predict Portland cement compressive strength at ages 7 and 28 days within 24 hours only.
This is in order to save time and expense, that is lost in waiting for such a long period, and for quality control assurance for both produced cement (in cement factories), and concrete mixes in constructions.
In addition, attention has been made on the right choice of variables involved in this model, especially the characteristics of the cement itself (phase composition and fineness).
In addition, an attempt has been made to use other variables that are believed to affect compressive strength of Portland cement as the minor oxides MgO, SO(3) and soundness.
Other variables obtained from chemical analysis of the cement as LOI, IR, and LSF were also included in the model.
The most important thing in this study is to get use of the concept of using early age strength to predict Portland cement strength at later ages for the first time.
An attempt was made to combine both accelerated strength testing (as an early strength and UPV of cement mortar specimens), with the characteristics of the cement mentioned above, in predicting the compressive strength of cement.
It was found that the accelerated strength yields good and high correlation with the compressive strength of cement, especially at the age of 28 days.
In this work too, the importance of the ultrasonic pulse velocity (UPV) and mortar density were evident and the usefulness of using these variables in predicting the compressive strength of the cement was proved (because of fixing most of the factors affecting this property).
Thus, it is possible to have good results that can be used in the prediction of compressive strength of cement.
It was found that using each of the accelerated compressive strength facc, UPV and density of the mortar cubes yielded high correlation with the compressive strength than any of the other variables.
Different combinations of variables were introduced into the model, in order to choose the variables that can significantly predict the cement compressive strength.
In this work, it was possible to obtain a model that can predict the cement strength with standard errors of only 1.
887 and 1.
904 MPa and coefficients of correlation of 0.
903 and 0.
928, for cement strengths at 7 and 28 days respectively.

Online publication: 2003-10-27
Classification: Scientific Reports
Publication type : full_text
Public price (Euros): 0.00
doi: 10.1617/13878