Abstract

A study of the one-dimensional consolidation of plastic concrete (that is, a concrete mix within the first few hours after mixing when it can still be remolded) is discussed with particular reference to the soil mechanics analogy which the author proposed for a wider study of some engineering properties of plastic concrete [2]. This property of the mix is discussed in terms of classical consolidation parameters used in soil mechanics, namely the coefficient of compressibility (mv) and the coefficient of consolidation (cv. It was desired to study the consolidation behavior of the material as it is just after mixing and, consequently, the mixes were retarded by the addition of small quantities of sugar to minimize the effect of hydration.

Theoretical equations are developed to express the dependence of these two quantities on the initial moisture content of the mix and the applied consolidation pressure.

A linear relationship, as predicted from theory, was obtained between mv and the initial moisture content from results of the laboratory study in which the Rowe's cell was used. Further empirical results showed that there is no apparent simple relationship between cv and initial moisture content. However, there is a linear relationship between cv and pressure increment. The mv values lie between 1.25 × 10−3 and 6.25 × 10−2 in.2/lb, while the cv values lie between 1.5 × 10−2 and 4.5 × 10−2 in.2/min. In general, the mixes tested behaved similarly to remolded clays.

The Darcy coefficient of permeability of the mixes, deduced from the consolidation data, is of the order of 10−8 cm/s.

Issue Section:
Research Papers
Keywords:
plastic concrete, soil mechanics analogy, consolidation, coefficient of compressibility, coefficient of consolidation, coefficient of permeability, pressure increment, moisture content

References

1.
Uzomaka
,
O. J.
, “
Some Fundamental Engineering Properties of Plastic Concrete
,” Ph.D. Dissertation,
University of Newcastle upon Tyne
,
07
1969
, pp.
178
-
208
.
2.
Moffat
,
A. I. B.
 and
Uzomaka
,
O. J.
, “
A Soil Mechanics Analogy Applied to the Study of Plastic Concrete
,”
Civil Engineering and Public Works Review
, Vol.
65
, No.
766
,
05
1970
, pp.
535
-
538
.
3.
Terzaghi
,
K.
,
Theoretical Soil Mechanics
,
Wiley
,
New York
,
1943
.
Google Scholar
Crossref
Search ADS
 
4.
Barden
,
L.
, “
Consolidation of Clay with Non-linear Viscosity
,”
Geotechnique, International Journal of Soil Mechanics
, Vol.
15
, No.
4
,
1965
, pp.
345
-
362
.
5.
Capper
,
P. L.
 and
Cassie
,
W. F.
,
The Mechanics of Engineering Soils
, 5th ed.,
Spon
,
London
,
1971
.
6.
Terzaghi
,
K.
 and
Perk
,
R. B.
,
Soil Mechanics in Engineering Practice
, 2nd ed,
Wiley
,
New York
,
1967
.
7.
Taylor
,
D. W.
,
Fundamentals of Soil Mechanics
,
Wiley
,
New York
,
1948
.
Google Scholar
Crossref
Search ADS
 
8.
Rowe
,
P. W.
 and
Barden
,
L.
, “
A New Consolidation Cell
,”
Geotechnique, International Journal of Soil Mechanics
, Vol.
16
, No.
2
,
1966
, pp.
162
-
170
.
9.
Bishop
,
A. W.
 and
Henkel
,
D. J.
,
The Measurement of Soil Properties in the Triaxial Test
,
Edward Arnold Ltd.
,
London
,
1962
.
10.
Leonards
,
G. A.
 and
Gerault
,
P.
, “
A Study of the One-Dimensional Consolidation Test
,”
Proceedings
,
5th International Conference on Soil Mechanics and Foundation Engineering
, Vol.
1
,
1961
, pp.
213
-
218
.
11.
Davies
,
E. H.
 and
Raymond
,
G. P.
, “
A Non-linear Theory of Consolidation
,”
Geotechnique, International Journal of Soil Mechanics
, Vol.
15
, No.
2
,
1965
, pp.
161
-
173
.
12.
Barden
,
L.
, “
Consolidation of Compacted and Unsaturated Clays
,”
Geotechnique, International Journal of Soil Mechanics
, Vol.
15
, No.
3
,
1965
, pp.
267
-
286
.
13.
Northey
,
R. D.
, “
Rapid Consolidation Tests for Routine Investigations
,”
2nd Australian and New Zealand Conference on Soil Mechanics and Foundation Engineering
,
1956
, pp.
20
-
26
.
14.
Northey
,
R. D.
 and
Thomas
,
R. F.
, “
Consolidation Test Pore Pressures
,”
6th International Conference on Soil Mechanics and Foundation Engineering
,” Vol.
1
,
1965
, pp.
323
-
327
.
15.
Ashworth
,
R.
, “
Some Investigations Into the Use of Sugar as an Admixture to Concrete
,”
Proceedings
,
Institution of Civil Engineers
, Vol.
31
,
1965
, pp.
129
-
145
.
16.
Uzomaka
,
O. J.
, “
Plastic Concrete
,”
Concrete
 0010-5317, Vol.
4
, No.
4
,
04
1970
, pp.
155
-
157
.
This content is only available via PDF.
All rights reserved. This material may not be reproduced or copied, in whole or in part, in any printed, mechanical, electronic, film, or other distribution and storage media, without the written consent of ASTM International.
You do not currently have access to this content.