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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 650Evaluation of Strength Characteristics of...

Evaluation of Strength Characteristics of Fibre-Cement Slab Material

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Abstract:

The paper summarizes the methodology and presents the evaluation of the test results of basic strength parameters, that means characteristic and design values of tensile-bending strength and modulus of elasticity of fibre-cement slabs material. The problems under consideration proceed from the probability approaches and reliability criteria for the evaluation of load-carrying components according to the limit state method. The conclusions based on material tests of actual structural parts provide for the verification and precision of the calculating and design models and also of the design resistance of structural components.

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Advances in Materials Science and Engineering

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Periodical:

Advanced Materials Research (Volume 650)

Pages:

320-325

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.650.320

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Online since:

January 2013

Authors:

Jindrich Melcher, Marcela Karmazínová, Milan Pilgr

Keywords:

Characteristic Value, Design Value, Fibre-Cement, Flat Sheet, Load-Carrying Capacity, Material Test, Partial Safety Factor, Slab, Statistical Evaluation, Strength

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] J. Melcher, M. Karmazínová, M. Pilgr and M. Frank: Defined load-carrying capacity of fibre-cements slabs (technology, tests, tables, graphs) (original in Czech language), VUSTAH, a. s Brno (2011), 102 pp.

[2] J. Melcher and M. Karmazínová: Strength characteristics of material of fiber-cement building components and verification of warming and sprinkling influence on their behavior (original in Czech language), In Proceedings of the XIVth International Conference on Ecology and New Building Materials and Products, held in Telč, VUSTAH a. s. Brno (2010).

[3] J. Melcher, M. Karmazínová, J. Knězek and L. Lederer: The influence of physical effects on behavior of structural components made of fiber-glass-concrete (original in Czech language), In Proceedings of the XIth Conference on Ecology and New Building Materials and Products, held in Telč, VUSTAH a. s. Brno (2007).

[4] J. Melcher, M. Karmazínová, M. Knězek and L. Lederer: Experimental verification of glass-fiber-concrete components of façade claddings (original in Czech language), In Proceedings of the Xth Conference on Ecology and New Building Materials and Products, held in Telč, VUSTAH a. s. Brno (2006).

[5] J. Melcher and M. Karmazínová: Loading tests of glass-fiber-concrete façade panels stiffened by rib" (original in Czech language), In Proceedings of the IXth Conference on Ecology and new building materials and products, held in Telč, VUSTAH a. s. Brno (2005).

[6] M. Karmazínová, J. Melcher, R. Pokorný and P. Pospíšil: Material characteristics of glass-fiber-concrete facade components (original in Czech language) In Proceedings of the VIIth Conference on Ecology and new building materials and products, held in Telč, VUSTAH, a. s. Brno, 2003, pp.102-112.

[7] J. Melcher, M. Karmazínová and J. Knězek: Experimental verification of glass-fiber-concrete façade panels under wind loading actions (original in Czech language), In Proceedings of the VIth Conference on New Building Materials and Products, held in Telč, VUSTAH a. s. Brno (2002).

DOI: 10.4028/www.scientific.net/amr.743.58

[8] M. Karmazínová: Design assisted by testing – a powerful tool for the evaluation of material properties and design resistances from test results, International Journal of Mathematical Models and Methods in Applied Sciences, Vol. 6, No. 2 (2012).

[9] M. Karmazínová, M. Pilgr and J. J. Melcher: Methods based on the approach of the design assisted by testing applied to the determination of material properties, In Proceedings of the 2nd International Conference on Mathematical Models for Engineering Science, Institute of Environment, Engineering, Economics and Applied Mathematics & WSEAS Press, Puerto de la Cruz (2011).

[10] M. Karmazínová and J. J. Melcher: Methods of the design assisted by testing – applicable tools for the design resistance evaluation using test results, In Proceedings of the 2nd International Conference on Mathematical Models for Engineering Science, Institute of Environment, Engineering, Economics and Applied Mathematics, WSEAS Press, Puerto de la Cruz (2011).

[11] M. Karmazínová and J. J. Melcher: Design assisted by testing applied to the determination of the design resistance of steel-concrete composite columns, In Proceedings of the 13th WSEAS International Conference on Mathematical and Computational Methods in Science and Engineering, WSEAS Press: Catania (2011).

[12] M. Karmazínová and J. Melcher: On problems of mechanical properties of structural steel in load-carrying structure of historical building construction, In Proceedings of the ICAMME 2012 – Applied Mechanics and Materials, TransTech Publication (2012).

DOI: 10.4028/www.scientific.net/amm.249-250.1103

[13] M. Karmazínová and J. Melcher: Influence of steel yield strength value on structural reliability, In Proceedings of the 7th WSEAS International Conference on Continuum Mechanics, WSEAS Press: Kos Island (2012).

[14] M. Karmazínová: Analysis of the actual behaviour, stress and moment capacity of composite beams composed of steel and glass-fibre-concrete, International Journal of Mechanics, Vol. 6, Issue 2 (2012), pp.158-167. ISSN 1998-4448.

[15] J. Melcher, M. Karmazínová and J. Pozdíšek: Experimental verification of behaviour of composite steel and glass-fibre-concrete beam, In Proceedings of the 9th International Conference on Steel-Concrete Composite and Hybrid Structures, held in Leeds, Research Publishing Services: Singapore (2009).

DOI: 10.3850/978-981-07-2615-7_233

[16] ČSN EN 12467 (72 3403) Fibre-cement flat sheets – Product specification and test methods (original in Czech language), the Czech Standard Institute, Prague (2005), 48 pp.

[17] EN 1990 Basis of Structural Design: Annex D – Design assisted by testing (2nd Edition), CEN Brussels (2011).