Proceedings of the 4th International Conference Fibre Concrete 2007 -
Technology, Design, Application ISBN 978-80-01-03740-9 ISSN 2336-338X |
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Fibre Concrete 2007 is an international conference focused on fibre reinforced concretes traditionally held biennially. The objective of the conference is to offer a basis for the presentation and discussion of the recent knowledge in theory, design and use of fibre composites in concrete structures. The results of experimental research, new materials development, progress in analytical methods and their implementation in design will be presented. Successful applications of fibre reinforced concrete in structures and executions of fibre concrete structural elements and structures will be demonstrated. The conference aims at getting together specialists from different spheres – development, research, technology and implementation of concrete, designers and building industry enterprisers. This book contains papers that were presented during the 4th International Conference FIBRE CONCRETE 2007 that was held in Prague, Czech Republic, September 12-13, 2007. The papers of the present volume were peer reviewed by independent reviewers. Conference was organized by Department of Concrete and Masonry Structures, Faculty of Civil Engineering, CTU in Prague, Czech Republic. Edited by Prof. Alena Kohoutková, Vladimíra Vytlačilová and Tomáš Dvorský |
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# | Authors | Title | Pages | Abstract | Full paper |
1 | KOHOUTKOVÁ Alena | FIBRECONCRETE IN OUR COUNTRY AND ABROAD – STATE OF THE ART | 11 - 16 | ||
2 | KRÁTKÝ Jiří, VAŠKOVÁ Jitka | INFLUENCE OF DIFFERENT MATERIALS PROPERTIES OF FIBRECONCRETE ON THE BEHAVIOUR OF CONCRETE STRUCTURES | 17 - 26 | ||
3 | KABELE Petr, PEKAŘ Jaroslav, NOVÁK Luděk, NĚMEČEK Jiří | INFORMATION ON CURRENT RESEARCH OF ENGINEERED CEMENTITIOUS COMPOSITES | 27 - 34 | ||
4 | ŠTĚPÁNEK Petr | ENVIRONMENTAL ASPECTS OF CONCRETE STRUCTURES DESIGN | 35 - 40 | ||
5 | VANĚK Tomáš | THE HISTORY AND FUTURE OF FIBRE CONCRETE | 41 - 44 | ||
6 | ALAEE Farshid Jandaghi, NAZARALI Ghods | HIGH PERFORMANCE FIBRE REINFORCED CEMENTITIOUS COMPOSITES WITH CRIMPED STEEL FIBRES | 45 - 50 | ||
7 | LUKŠ Jiří, DONE Petra | HEAT RESISTANCE OF CONCRETE AND FIBRE CONCRETE | 51 - 56 | ||
8 | MADHAVI T.Ch, TULASI Babu.J, RAM KARTHIKEYAN.T, SURESHKUMAR.Y | MECHANICAL PROPERTIES OF HIGH STRENGTH FIBRE REINFORCED CONCRETE USING STEEL FIBRES AND SILICA FUME | 57 - 62 | ||
9 | HELA Rudolf, BODNÁROVÁ Lenka | LIGHT-WEIGHT SELF-COMPACTING FIBRE- REINFORCED CONCRETE | 63 - 68 | ||
10 | KUCHARCZYKOVÁ Barbara, PLŠKOVÁ Iveta, ADÁMEK Jiří | COMPARISON OF MECHANICAL AND PHYSICAL CHARACTERISTICS OF THE LIGHTWEIGHT CONCRETE WITH AND WITHOUT FIBRES | 69 - 74 | ||
11 | LAMBRECHTS Ann, VITT Gerhard | CHARACTERISTICS OF STEEL AND POLYMER BASED FIBRE CONCRETE | 75 - 80 | ||
12 | KNĚZEK Josef, ČECHMÁNEK René | OPERATING CHARACTERISTICS OF CEMENT COMPOSITES WITH HYBRID NON-METALLIC FIBRE REINFORCEMENT | 81 - 86 | ||
13 | CUYPERS H., VAN ITTERBEECK P. , WASTIELS J. | THE USE OF TEXTILE REINFORCED CONCRETE IN LIGHTWEIGHT CONSTRUCTION ELEMENTS | 87 - 92 | ||
14 | BENEŠ Teodor, ŽÍDEK Libor | SYNTHETIC FIBRES WITH IMPROVED ANCHORING IN CONCRETE | 93 - 96 | ||
15 | FRANTÍK Petr, PRŮŠA Jaroslav, KERŠNER Zbyněk, MACUR Jiří | ABOUT STABILITY LOSS DURING DISPLACEMENT- CONTROLLED LOADING | 97 - 100 | ||
16 | AS’AD Sholihin, SAXER Andreas | INFLUENCE OF FIBRE GEOMETRY ON THE FLEXURAL STRENGTH PERFORMANCE OF STEEL FIBRE REINFORCED CONCRETE (SFRC) | 101 - 106 | ||
17 | KRÁTKÝ Jiří, VAŠKOVÁ Jitka | COMPATIBLE DESIGN OF FC AND RFC STRUCTURES WITH STANDARD DESIGN OF PLAIN CONCRETE AND RC STRUCTURES | 107 - 112 | ||
18 | PROCHÁZKA Jaroslav | DETAILING POSSIBILITIES OF FIBRE CONCRETE SLABS ON GROUND | 113 - 118 | ||
19 | MINH LONG Nguyen, ROVŇÁK Marián | SHEAR RESISTANCE OF STEEL FIBER REINFORCED CONCRETE BEAMS | 119 - 124 | ||
20 | VÁCHA Jaroslav | INDUSTRIAL CONCRETE FLOOR DESIGN UNDER EXTREME CONDITIONS | 125 - 128 | ||
21 | KOHOUTKOVÁ Alena, BROUKALOVÁ Iva | UTILISATION OF MODEL SIMULATION IN OPTIMISATION OF FIBRECONCRETE FOR STRUCTURAL ELEMENTS | 129 - 134 | ||
22 | NOVÁK Drahomír, PUKL Radomír | MODELING FIBRE CONCRETE: FROM EXPERIMENT TO RELIABILITY ASSESSMENT | 135 - 140 | ||
23 | KRUIS Jaroslav, ŠTEMBERK Petr | CONCRETE-REINFORCEMENT INTERACTION MODELLED BY THE FETI METHOD | 141 - 146 | ||
24 | ELIÁŠ Jan, VOŘECHOVSKÝ Miroslav | ON MODELING EXPERIMENTS WITH FRC IN ATENA SOFTWARE | 147 - 152 | ||
25 | ŽÍTT Petr, LÁNÍK Jaromír | EXPERIMENTAL TESTS OF RC SLABS, COMPARISON TEST OF CONCRETE AND FIBRE-CONCRETE | 153 - 158 | ||
26 | TRTÍK Karel, VLASÁK Oldřich | CONTROL OF DOSAGE RATE AND DISTRIBUTION OF STEEL FIBRES IN CONCRETE MIXTURE USING DOSOMETER | 159 - 164 | ||
27 | VODIČKA Jan, VAŠKOVÁ Jitka | EXPERIMENTAL INVESTIGATION OF BASIC PROPERTIES OF FIBRE CONCRETE | 165 - 168 | ||
28 | BOČEK Jaroslav | DRAMIX® STEEL FIBRES PRECAST ELEMENTS | 169 - 172 | ||
29 | MANDL Juergen, VLASÁK Oldřich | TAB-SLABTM - FREELY SUSPENDED SLABS MADE OF STEEL FIBRE REINFORCED CONCRETE | 173 - 178 | ||
30 | VODIČKA Jan, VESELÝ Vladimír, KOLÁŘ Karel, KRÁTKÝ Jiří | PRACTICAL APPLICATION OF FIBRE CONCRETE | 179 - 182 | ||
31 | PEPIN Rene, VLASÁK Oldřich | TAB-FLOORTM – JOINTLESS INDUSTRIAL FLOOR BY ARCELOR | 183 - 186 | ||
32 | MACDONALD Clifford N., ZEDNÍČEK Jiří | EXPERIENCES WITH THE DESIGN, CONSTRUCTION, AND PERFORMANCE OF HIGH VOLUME SYNTHETIC FIBER REINFORCED CONCRETE SLABS ON GROUND | 187 - 194 | ||
33 | BOUŠKA Petr, PUKL Radomír, VOKÁČ Miroslav, KLIMEŠ Petr, HRDOUŠEK Vladislav | INVESTIGATION OF CRACKS IN CONCRETE BEAMS | 195 - 200 | ||
34 | BLOM J., CUYPERS H., VAN ITTERBEECK P., WASTIELS J. | MODELLING THE BEHAVIOUR OF TEXTILE REINFORCED CEMENTITIOUS COMPOSITES UNDER BENDING | 201 - 206 | ||
35 | CIKRLE Petr, KRÁLOVÁ Lucie, MAŘÍK Richard | CRACKS PROGRESSION MONITORING IN FIBRE REINFORCED CONCRETE | 207 - 210 | ||
36 | ČECHMÁNEK René, ŠOTEK Michal, SCHIEROVÁ Stanislava | TECHNOLOGY OF GFRC PRODUCTION WITH WASTE MATERIALS UTILIZATION | 211 - 216 | ||
37 | DOLEŽAL Petr, ČECHMÁNEK René | UTILIZATION OF THIN-WALL GLASS FIBRE REINFORCED CONCRETE IN BUILDING INDUSTRY | 217 - 220 | ||
38 | KERŠNER Zbyněk, TERZIJSKI Ivailo | FRACTURE PROPERTIES OF FIBRE UHPC AFTER 28, 90 AND 180 DAYS OFSPECIMENS CURING | 221 - 224 | ||
39 | MINH LONG Nguyen, ROVŇÁK Marián | EFFECT OF FIBER TYPES ON SHEAR STRENGTH OF FIBRE REINFORCED CONCRETE UNDER DIRECT SHEAR | 225 - 230 | ||
40 | ŘOUTIL Ladislav, PODROUŽEK Jan | STOCHASTIC NONLINEAR ANALYSIS OF FACADE PANELS MADE OF FIBREREINFORCED CEMENT BASED COMPOSITE | 231 - 234 | ||
41 | VAN ITTERBEECK P., CUYPERS H., WASTIELS J. | STRENGTH DURABILITY MODELS FOR GLASS FIBRE REINFORCED CONCRETE AND THEIR APPLICATION FOR THE CALCULATION OF A TEXTILE REINFORCED STRUCTURAL ELEMENT | 235 - 240 | ||
42 | FOGLAR Marek | PARAMETRIZATION OF THE DEVELOPMENT OF SECANT MODULUS OF ELASTICITY OF CONCRETE UNDER CYCLIC LOADING | 241 - 246 | ||
43 | DRAHORÁD Michal, KUKAŇ Vlastimil, ŘEŘICHA Petr | DETERMINATION OF THE LOAD-BEARING CAPACITY OF ROADWAY MASONRY ARCH BRIDGES USING COMMON COMMERCIAL SOFTWARE | 247 - 251 | ||
44 | ŠINDLER Daniel, ŘÍMAL Jaroslav | THE COMPARISON OF TEMPERATURE LOADING OF SUPPORTING CONSTRUCTION OF BRIDGES | 253 - 258 | ||
45 | KLIER Tomáš | ANCHORAGE ZONE OF POST-TENSIONING TENDONS - DESIGN OF REINFORCEMENT | 259 - 262 | ||
46 | SKALA Josef | STAIR SLABS SUPPORTED AT LANDING LEVEL | 263 - 266 | ||
47 | MAREK Pavel | APPLICATION OF FIBRE CONCRETE IN SLENDER STRUCTURAL MEMBERS | 267 - 272 | ||
48 | KARASOVÁ Eva | THE EFECT OF CONSTRUCTION PROCESS – STRESS AND DEFORMATION DEVELOPMENT OF ARCH BRIDGE | 273 - 275 | ||
49 | TRAN Nam Thanh | REVISED METHOD OF MEASURING LATERAL DEFORMATION OF HARDENING CONCRETE UNDER UNIAXIAL LOADING | 277 - 282 | ||
50 | SEDLÁČEK Michal | FINAL TUNNEL LINING OF PLAIN CONCRETE | 283 - 288 | ||
51 | VISTR Tomáš, KOHOUTKOVÁ Alena | INFLUENCE OF FIBER REINFORCEMENT VOLUME IN CONCRETE MEMBER ON CRACK DEVELOPMENT AND CRACK WIDTH | 289 - 294 | ||
52 | VYTLAČILOVÁ Vladimíra, DVORSKÝ Tomáš | CONCRETE PERMEABILITY | 295 - 300 | ||
53 | PELANT Marek, DRAHORÁD Michal | STRENGTHENING AND PRESERVATION OF MASONRY STRUCTURES FOR CONTINUED USE IN TODAY´S INFRASTRUCTURE | 301 - 304 | ||
54 | VYTLAČILOVÁ Vladimíra | USE OF ALTERNATIVES TO PRIMARY AGGREGATES IN CONCRETE | 305 - 310 | ||
55 | MENŠÍK Aleš, VYTVAR David | SOLVING ANCHORAGE AREA PRESTRESSED AND NONPRESTRESSED COMPOSITES | 311 - 316 | ||
56 | DVORSKÝ Tomáš | EXPERIMENTAL TESTS OF MASONRY ARCHES | 317 - 322 |