Table of Contents
-Mechanical Equipment for Consolidation of Concrete,
by Ken Weden
-Consolidation of Concrete in Congested Areas at Darlington
N. G. S., by Dan Bonikowsky
-Need for Consolidation of Superplasticized Concrete Mixes,
by Lars Forssblad
-Consolidation of Continuously Reinforced Concrete
Pavement, by Mikael P. J. Olsen
-Compressive Strength of Compacted Portland Cement-Base
Mixtures Using Phosphogypsum, by Kuo-Ting Lin, Antonio Nanni,
and Wen F. Chang
-Compaction of Roller Compacted Concrete, by E. K. Schrader
-Tunnel Concrete--Consolidation Achieved by a Harmonic
Blend of Internal and External Vibration, by T. R. Harrell and
G. M. Goswick
-Why Vibrate? By H. A. Welton
-Effect of Degree of Consolidation on Some Important
Properties of Concrete, by D. Whiting, G. W. Seegebrecht,
and S. Tayabji
-Experimental Considerations on Judging Adequacy of
Consolidation in Fresh Concrete, by Makoto Kagaya,
Hiroshi Tokuda, and Makoto Kawakami
-Energy Requirements of Consolidation of Concrete During
Internal Vibration, by Mikael P. J. Olsen
-Compaction Effects on Flexural Behavior of Reinforced
Concrete, by Mitsuyasu Mashima
-Properties of Double-Mixed Lean Concrete Subject to
Vibrating Compaction, by K. Iida and S. Horigome