Lukáš Vráblík scite author profile

Lukáš Vráblík

5Publications

70Citation Statements Received

0Citation Statements Given

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Affiliations

Czech Technical University in Prague

Publications

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Design for SLS according to fib Model Code 2010

Balázs

Bisch

Borosnyói

et al. 2013

Structural Concrete

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This paper provides an overview of serviceability specifications given by the fib Model Code for Concrete Structures 2010 (fib MC2010 [1]). First, the reasons behind crack control and deflection control are discussed, then specific design rules are provided. Simple rules as well as detailed models are also presented. Numerical examples are provided in order to assist in the application of the design recommendations for crack control and deflection control (reinforced and prestressed concrete elements).Simple rules mean indirect control of cracking or deflections without calculations. Indirect crack control may include limitation of stresses and selection of maximum bar diameter or maximum bar spacing. Indirect deflection control normally means limiting the span‐to‐depth ratio.Detailed models are based on physical and mathematical approaches to cracking and deflections. The design crack width is expressed as the maximum bond transfer length multiplied by the mean strain between cracks. Deflection analysis can be provided by integrating curvatures or by using a simplified or refined method. Vibrations and numerical modelling of cracking are also briefly discussed.

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An analysis of the applicability of existing shrinkage prediction models to concretes containing steel fibres or crumb rubber

Chylík

Fládr

Bílý

et al. 2019

Journal of Building Engineering

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The Experimental Timber–UHPC Composite Bridge

et al. 2021

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This paper describes the development of an innovative timber–concrete composite bridge system and especially focuses on the evaluation of the load tests of an experimental bridge structure. The load-bearing structure was designed as glue-laminated timber beams connected with only 60-mm-thick precast bridge deck segments made of ultra-high-performance concrete (UHPC). To verify the production details and behavior of the designed structure, we built a full-scale experimental structure and performed a load test. The load test was arranged as a four-point bending test. First, we performed the overall load test until failure. Some bridge deck segments were consequently cut from the structure in order to run further load tests of the bridge deck in the transversal direction. The results of the experiments were evaluated in detail and compared with analytical calculations.

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fib Bulletin 92.

Bisch¹,

Burns²,

Borosnyói³

et al. 2019

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An analysis of long time deflection of long span prestressed concrete bridges

Vráblík¹,

Kř́ıstek²

2010

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