Publications
Proceedings pro007 : 1st International RILEM Symposium on Self-Compacting Concrete Stockholm, Sweden (1999)
| Title: 1st International RILEM Symposium on Self-Compacting Concrete Stockholm, Sweden (1999) Edited by Å. Skarendahl and Ö. Petersson ISBN: 2-912143-09-8 e-ISBN: 2912143721 Pages: 804 Publication date: 1999 |
The interest for self-compacting concrete has rapidly increased world wide following the pioneering work done in Japan not more than a decade ago. 1976 RILEM established a Technical Committee with the objective to gather, analyse and present the state-of-the art of the emerging technology as well as to look for unified views on testing and evaluation. The committee started work 1977 and is through this symposium, held in Stockholm in September 1999, offering a broad platform for information and discussion on the technology. The work of the committee is planned to be closed with a final report at the beginning of the next millennium.
Contents
|
Preface Author(s): Å. Skarendhal |
Pages: XV - XV |
|
Membership Author(s): Å. Skarendhal |
Pages: XVI - XVI |
Part 1 - Keynote lectures
|
Self-compacting concrete - Development, present and future Author(s): H. Okamura, M. Ouchi |
Pages: 3 - 14 |
|
SCC is an important step towards industrialisation of the building industry Author(s): J. Byfors |
Pages: 15 - 21 |
Part 2 - Rheology/Workability
|
Evaluation of flow of self-compacting concrete by visualization technique Author(s): S. Urano, C. Hashimoto, Y. Tsuji |
Pages: 25 - 34 |
|
Three-dimensional discrete element simulation of rheology tests of self-compacting concrete Author(s): M.A. Noor, T. Uomoto |
Pages: 35 - 46 |
|
Fine mortars rheology in mix design of SCC Author(s): P. Billberg |
Pages: 47 - 58 |
|
Rheological approach to passing ability between reinforcing bars of self-compacting concrete Author(s): T. Noguchi, S.G. Oh, F. Tomosawa |
Pages: 59 - 70 |
|
A flow analysis for self-compacting concrete Author(s): Y. Muroga, T. Ohsuga, S. Date, A. Hirata |
Pages: 71 - 82 |
|
Characterization of the rheological properties of cement paste for use in self-compacting concrete Author(s): A.W. Saak, H.M. Jennings, S.P. Shah |
Pages: 83 - 94 |
|
Rheology tests for self-compacting oncrete - How useful are they for the design of concrete mix for full scale production? Author(s): M. Emborg |
Pages: 95 - 105 |
Part 3 - Properties
|
Properties of mortar for self-compacting concrete Author(s): P.L.J. Domone, J. Jin |
Pages: 109 - 120 |
|
A simple evaluation method for interaction between coarse aggregate and mortar particles in self-compacting concrete Author(s): M. Ouchi, Y. Edamatsu |
Pages: 121 - 130 |
|
Comparative study on the induced hydration, drying and deformations of self-compacting and ordinary mortars Author(s): G. Villain, V. Baroghel-Bouny, C. Kounkou |
Pages: 131 - 142 |
|
Stability of self compacting concrete, advantages, and potential applications Author(s): K.H. Khayat, C. Hu, H. Monty |
Pages: 143 - 152 |
|
Self-compacting concrete stability control Author(s): F. Cussigh |
Pages: 153 - 162 |
|
Study on self-compactibility of high-fluidity concrete Author(s): H. Fujiwara, S. Nagataki |
Pages: 163 - 174 |
|
Microstructural features and related properties of self-compacting concrete Author(s): J. Trägårdh |
Pages: 175 - 186 |
|
Chloride diffusion of self-compacting concrete Author(s): L. Tang, A. Andalen, J.-O. Johansson, S. Hjelm |
Pages: 187 - 198 |
|
Strength of hardened self-compacting concrete Author(s): J.C. Gibbs, W. Zhu |
Pages: 199 - 209 |
|
Properties of SCC - Especially early age and long term shrinkage and salt frost resistance Author(s): H.E. Gram, P. Piiparinen |
Pages: 211 - 225 |
|
Drying shrinkage of self-compacting concrete containing milled limestone Author(s): V.K. Bui, D. Montgomery |
Pages: 227 - 238 |
|
Creep, shrinkage and elastic modulus of self-compacting concrete Author(s): B. Persson |
Pages: 239 - 250 |
|
Compparative study on properties of self-compacting and high performance concrete used in precast construction Author(s): P. Rougeau, J.L. Maillard, C. Mary-Dippe |
Pages: 251 - 261 |
|
Influence of constituents on the properties of self-compacting repair materials Author(s): F.J. O'Flaherty, P.S. Mangat |
Pages: 263 - 274 |
|
Hardened SCC and its bond with reinforcement Author(s): M. Sonebi, P.J.M. Bartos |
Pages: 275 - 289 |
|
Structural response of self-consolidating concrete columns Author(s): K.H. Khayat, S. Tremblay, P. Paultre |
Pages: 291 - 306 |
Part 4 - Mix design
|
A rational mix-design method for self-compacting concrete considering interaction between coarse aggregate and mortar particles Author(s): Y. Edamatsu, N. Nishida, M. Ouchi |
Pages: 309 - 320 |
|
Optimization of self-compacting concrete thanks to packing model Author(s): T. Sedran, F. de Larrard |
Pages: 321 - 332 |
|
Investigation on blocking of self-compacting concrete with different maximum aggregate size and use of viscosity agent instead of filler Author(s): Ö. Petersson, P. Billberg |
Pages: 333 - 344 |
|
Utility of statistical models in proportioning self-consolidating concrete Author(s): K.H. Khayat, A. Ghezal, M.S. Hadriche |
Pages: 345 - 359 |
|
Toward mix design for rheology of self-compacting concrete Author(s): S.G. Oh, T. Noguchi, F. Tomosawa |
Pages: 361 - 372 |
|
Mixture proportioning method for self-compacting high performance concrete with minimum paste volume Author(s): V.K. Bui, D. Montgomery |
Pages: 373 - 384 |
|
Concrete mixture proportioning with optimal dry packing Author(s): T.T. Roshavelov |
Pages: 385 - 396 |
|
Design of self-compacting concrete for durable concrete structures Author(s): F. Jacobs, F. Hunkeler |
Pages: 397 - 407 |
Part 5 - Constituent materials in SCC
|
Multi component polymer concrete admixtures Author(s): T.A. Bürge |
Pages: 411 - 424 |
|
Performance of a new-developed powder polycarboxylic acid superplasticizer Author(s): K. Tsukada, K. Soeda, H. Hayashi, H. Isomura |
Pages: 425 - 436 |
|
Influence of temperature on the dispersibility of polycarboxylate type superplasticizers for highly fluid concrete Author(s): K. Yamada, T. Yanagisawa, S. Hanehara |
Pages: 437 - 448 |
|
Property of new polysaccharide derivative as a viscosity agent for self-compacting concrete Author(s): H. Yamamuro |
Pages: 449 - 459 |
|
New admixture to self-compacting concrete Author(s): P. Davoust |
Pages: 461 - 471 |
|
Reduction of viscosity of concrete with modified lignosulphonate Author(s): K. Reknes |
Pages: 473 - 484 |
|
Shrinkage and shrinkage reduction of self-compacting concrete Author(s): F.J. Wombacher |
Pages: 485 - 495 |
|
The use of steel fibres in self-compacting concrete Author(s): P. Groth, D. Nemegeer |
Pages: 497 - 507 |
|
Testing and performance of fiber-reinforced self-consolidating concrete Author(s): K.H. Khayat, Y. Roussel |
Pages: 509 - 521 |
|
Effect of rheological parameters on self-compactibility of concrete containing various mineral admixtures Author(s): A. Yahia, M. Tanimura, A. Shimabukuro, Y. Shimoyama |
Pages: 523 - 535 |
|
Influence of microfillers on proportioning of mortar in self compacting concrete Author(s): K. Takada, G.I. Pelova, J.C. Walraven |
Pages: 537 - 548 |
|
A study of self-compacting HPC with superfine sand and pozzolanic additives Author(s): C. Jianxiong, P. Xincheng, H. Yubin |
Pages: 549 - 560 |
|
The effect of different additions on flowability of SCC Author(s): P. Nischer |
Pages: 561 - 567 |
|
Studies on self-compacting high performance concrete with high volume mineral additives Author(s): W. Fang, C. Jianxiong, Y. Changhui |
Pages: 569 - 578 |
|
Self-compactibility of fresh concrete with non-ferrous metal slag fine aggregates Author(s): M. Shoya, M. Aba, S. Sugita, Y. Tsukinaga, K. Tokuhashi |
Pages: 579 - 590 |
|
Energy modified cement in SCC Author(s): P. Billberg |
Pages: 591 - 602 |
Part 6 - Applications
|
Field applications of self-compacting concrete with advantageous performances Author(s): T. Mizobuchi, S. Yanai, K. Takada, N. Sakata, Y. Nobuta |
Pages: 605 - 616 |
|
Evaluation on the practicability of SCC Author(s): M.K. Maeda, K. Yamada, A. Uchida |
Pages: 617 - 628 |
|
Application of high-strength self-compacting concrete to prestressed concrete outer tank for LNG storage Author(s): T. Nishizaki, F. Kamada, R. Chikamatsu, H. Kawashima |
Pages: 629 - 638 |
|
Full scale casting of bridges with self-compacting concrete Author(s): P. Billberg, Ö. Petersson, T. Österberg |
Pages: 639 - 650 |
|
Self-compacting concrete - Industrialised site cast concrete Author(s): M. Grauers |
Pages: 651 - 658 |
|
Application of low shrinkage type self-compacting concrete to an advanced large water purification plant Author(s): R. Chikamatsu, C. Shinkai, H. Kushigemachi |
Pages: 659 - 668 |
|
SCC for tunnel-lining Author(s): V. Wetzig |
Pages: 669 - 680 |
|
SCC tunnel applications: Cleuson Dixence project and Loetschberg basis tunnel, Switzerland Author(s): J. Botte, J. Burdin, M. Zermatten |
Pages: 681 - 693 |
|
SCC and the new era for the precast concrete industry Author(s): H.W. Bennenk |
Pages: 695 - 704 |
|
Development and usage of self-compacting concrete in precast concrete field Author(s): H. Humehara, D. Hamada, H. Yamamuro, S. Oka |
Pages: 705 - 716 |
|
The use of SCC for precast elements Author(s): J. Steigenberger |
Pages: 717 - 721 |
|
Full-scale tests for housing Author(s): L. Söderlind |
Pages: 723 - 728 |
|
The use of SCC for building the millenium tower in vienna Author(s): R. Pichler |
Pages: 729 - 731 |
|
Production of self-compacting concrete for civil engineering - Case studies Author(s): M. Emborg, C. Hedin |
Pages: 733 - 742 |
|
Experience from full scale production of steel fibre reinforced self-compacting concrete Author(s): J. Gustafsson |
Pages: 743 - 754 |
|
A new approach to contract specifications for constructing durable marine structures using self compacting concrete Author(s): S.R. Curtis |
Pages: 755 - 766 |
|
Quality assurance for self-compacting concrete (SCC) Author(s): L.G. Tviksta |
Pages: 767 - 775 |
|
AIJ recommended practice for high-fluidity concrete for building construction Author(s): F. Tomosawa, Y. Masuda, I. Izumi, M. Hayakawa |
Pages: 775 - 786 |