Influence of technological factors on the properties of ultra-high-performance fiber reinforced concrete

The results are given and the influence of technological factors on the rheological properties of self-compacting steel-fibre rein-forced-concrete mixtures is assessed, shortterm and long-term physical-mechanical and deformative characteristics of ultra-high-per-formance-fibre reinforced concrete are determined, including the determination of its actual frost resistance.

Deformation characteristics, physical and mechanical properties, self-compacting concrete, segregation resistance, steel fiber reinforced concrete, ultra-high-performance concrete

1. AFGC Recommendations on Ultra-High Performance Fiber-Reinforced Concrete (UHPFRC). Revised edition, June 2013. France, AFGC’s Scientific and Technical Committee.

2. Kaprielov S.S., Sheinfeld A.V., Batrakov V.G. A New Method for Producing Flowable and Stabilized Pastes of Silica Fume, and Concrete Properties // Fifth CANMET / ACI, International conference on Fly-Ach, Silica Fume, Slag and Natural Porrolans in Concrete. June 1995, Milwaukee. USA. Pp. 373-389.

3. Maintenance Construction Securite - Ecole Polytechnique Federale de Lausanne Recommendation: Ultra-High Performance Fiber Reinforced Cement-based composites (UHPFRC). Construction material, dimensioning and application. MCS-EPFL Lausanne, Switzerland, Mai 2016. Pp.37.

4. Malhotra V.V. Innovative Applications of Superplasticizers in Concrete - A Review // CANMET / ACI Symposium on Advances in Concrete Science Techn., Rome, oct. 7-10, 1997, Proceedings, Pp. 271-314.

5. Sovjak R.,Maca R., ImlaufT. Effect of fiber lenght on the fracture energy of UHPFRC // www. scincedirect.com, Procedia Engeneering 193, (2017). Pp. 74-79.

6. Каприелов C.C., Шейнфелъд A.B., Кардумян Г. С. [и др.]. Новые бетоны и технологии в конструкциях высотных зданий // Высотные здания. 2007. №5. С. 94-101.

7. Каприелов С.С., Батраков В.Г., Шейнфелъд А.В. Модифицированные бетоны нового поколения: реальность и перспектива // Бетон и железобетон. 1999. № 6. С. 6-10.

8. Каприелов С.С., Чилин И.А. Сверхвысокопрочный самоуплотняющийся фибробетон для монолитных конструкций // Строительные материалы. 2013. №7. С. 28-30.

9. Патент РФ 2662168 «Бетонная смесь». Дата регистрации в Гос. реестре изобретений РФ: 24.07.2018.

10. Стандарт Франции NF P 18-470 Betons fibres a ultra-hautes performances - Specification, performance, production et conformite, AFNOR, Paris, 2016.

11. Стандарт Франции NF P 18-710 Calcul des structures en beton - Regles specifiques pour les betons fibres a ultrahautes performances (BFUP), AFNOR, Paris, 2016.