Nosná železobetonová konstrukce vícepodlažního objektu / Load-bearing RC structure of the multi-storey building

Petrovič, Jiří

January 2019

The Master’s thesis is focused on the analysis and design of selected members of load-bearing structure of an apartment house according to the ultimate limit states (ULS) and seviceability limit states (SLS). The calculation and the analysis was supported by design software SCIA ENGINEER 2017. Structural analysis deals with the design of the reinforced concrete floor slab of 1.PP, beams in 1.PP, selected walls in 1.NP and column in 1.PP and 1.NP. Thework beside this deals with the calculation and design of foundation of the object.

Železobetonová konstrukce parkovacího domu / Reinforced concrete structure parking House

Mazura, Marek

January 2019

The diploma thesis deals with design of structural system of selected parts of load-bearing structure of car park – common floor slab, selected columns, staircase. The Finite Element Method software is used to analyse the load-bearing structure, the results are verified by simlyfied hand-done calculation. The design of structures is done according to valid standards.

Penzion / Boarding House

Balážová, Pavla

January 2019

The subject of this diploma thesis is a project for design documentation of boarding house which is oriented at south Moravia in the village Pavlov. The object is solved as four-storey with a partial recession of the first floor into the terrain. Boarding house will serve for the accommodation of 52 people. In the first floor, there is an entrance hall with reception, relaxing area and technical equipment of the building. In the second floor, there is a restaurant with a terrace and all necessary facilities for guests and restaurant staff. Two second highest floors are determined for guest accommodation. The construction of foundation is made from strip foundation. The structure is from bricks with monolith reinforced concrete frame in the first floor. It is a longitudinal wall system transversally reinforced by staircases. The perimeter walls will be insulated with ETICS system. The ceiling will be created from the prestressed reinforced concrete panels. Construction of roof is made from truss girders saddle type.

Penzion / Boarding house

Pálka, Tomáš

January 2020

The subject of the thesis is a project for the implementation of the construction of the Pension with restaurant and wellness, located in South Moravia in the village Zaječí. The building is designed as a two-storey basement with partial embedding of the first underground floor into the ground. The guesthouse will be used for temporary accommodation of 24 persons. On the first floor there is an entrance hall with reception, facilities for staff and accommodation rooms. The other rooms are located on the second floor. In the basement is a restaurant and wellness, as well as technical facilities. The building is based on the foundation passports. Constructionally o brick building from ceramic blocks. It is a longitudinal wall system transverse stiffened by walls. External walls will be insulated by contact insulation system ETICS. Ceilings will be created from prestressed ceiling panels. The roofing is designed using a saddle roof truss.

Mateřská škola / Kindergarden

Tichý, Pavel

January 2016

The thesis deals with drafting project documentation for the new building of the kindergarten. The building is designed in two separate classes, each with a capacity of 24 children, facilities for teachers and classroom for smaller rings. Parts of the building is designed for the needs of kindergarten kitchen. The building has two floors, brick bearing system. Warmth contact insulation system with an insulating layer of polystyrene. Roofing flat roof of the building.

Hodnocení provozuschopnosti historické železobetonové stropní konstrukce / Serviceability Evaluation of historical concrete floor slab

Dudek, Matěj

January 2012

The master’s thesis is focused on serviceability evaluation of historical concrete floor slab realized in the third decade of the 20th century. The assessment of structural performance is based on the results of load testing in situ. The thesis defines contemporary load testing requirements followed by the specifications of measuring instruments and the possibilities of displacement measurements during load testing. In addition, it includes structural and historical investigation of the building, methodology and data evaluation of the load testing. Finally, the theoretical computer simulation of executed load testing is run by using software determined for nonlinear finite elements analysis.

Mateřská škola ve Velké Bíteši / Kindergarten in Velká Bíteš

Dvořáčková, Karolína

Unknown Date

This diploma thesis deals with design and elaboration of project dokumentation of kindergarten in Velká Bíteš. The building have two above-ground floor, non besement, with flat green roof. The structural system of building is designed from sand-lime block with thiskness 240 mm. Floor structure is from precast floor slab. The building is insulated witr contact thermal insulation. In kindergarten there is three class, each for 25 kids.

Semi-rigid action of composite joints

Davison, J.B., Lam, Dennis, Nethercot, D.A.

January 1990

The results of a pilot series of tests, designed to investigate the influence of the presence of a composite floor slab on the performance of steel beam-to-column connections, are reported. Direct comparisons against equivalent bare steel tests show improvements in moment capacity (up to 15 times), with reinforcement anchorage being the main controlling factor. Thus joints to internal columns where the deck runs parallel to the beams and relatively small numbers of bars supplement the basic mesh reinforcement may be expected to give the best performance.

Composite floor slab

Steel beam-to-column connections

Moment capacity

Reinforcement anchorage

Structural engineering

Steel concrete composite structures

Semi-rigid action

Composite joints

Analyse du comportement au feu des planchers mixtes acier-béton constitutés de poutres cellulaires / Analysis of the fire behaviour of steel and concrete composite floors made of cellular beams

Bihina, Gisèle

05 July 2011

En situation d’incendie, la dégradation des propriétés mécaniques des matériaux constitutifs d’une structure peut sensiblement en modifier le comportement global. Ainsi, lors d’essais au feu ou de sinistres réels, des flèches significatives sont observées sans ruine globale du plancher. Ceci traduit l’activation d’un mécanisme basé sur une borne supérieure de plasticité en grands déplacements et appelé effet membrane. Ainsi, malgré la perte des propriétés du béton, de l’acier d’armatures et de l’acier de construction des poutres connectées à une dalle en béton armé ou mixte acier-béton, la capacité portante de cette dalle se définit comme une fonction croissante de sa flèche. En pratique, le comportement complexe des planchers mixtes acier-béton peut être appréhendé par des modèles dits simplifiés ou avancés, suivant le niveau de précision souhaité. La méthode analytique FRACOF permet par exemple d’étudier un plancher global à température élevée, en se basant sur les modèles de comportement simplifiés des matériaux, acier et béton, définis dans les Eurocodes. Par cette méthode, la capacité portante d’une dalle peut alors être déterminée en tenant compte des profilés métalliques connectés à la dalle, et de l’activation d’un effet membrane en grands déplacements. Cette méthode analytique a été validée par une comparaison à des modèles éléments finis, ainsi qu’à des résultats d’essais au feu en grandeur nature. Elle est applicable à des profilés en acier laminé à chaud avec des portées pouvant atteindre 20 m. Or le franchissement de ces portées nécessite des sections de poutre à forte inertie, afin de limiter les flèches du plancher en service. Pour limiter la quantité d’acier que requerraient de telles poutres, le recours à des poutres cellulaires est une solution pratique et esthétique. Un modèle élément finis de poutres cellulaires en acier seul et mixtes est proposé dans le cadre de la thèse de doctorat. Le comportement thermo-mécanique des poutres cellulaires en acier seul est modélisé sous le code Cast3M. Les poutres mixtes sont modélisées en combinant un calcul de transfert thermique sous Cast3M et une analyse mécanique sous ANSYS. Les poutres en acier et la dalle en béton ou mixte sont représentées par des éléments de type coque. Les connecteurs sont représentés par des éléments de type poutre. Ce modèle tridimensionnel tient par ailleurs compte des non-linéarités matérielle et géométrique. Il est confronté à des résultats d’essais à températures normale et élevée. La validation du modèle est suivie d’une comparaison à une méthode analytique existante pour en vérifier la précision et le degré de conservatisme. Les poutres cellulaires sont ensuite étudiées en tant que partie intégrante de planchers mixtes acier-béton sous incendie. Un essai en grandeur nature sous feu réel met en évidence l’activation d’un effet membrane en présence de poutres cellulaires non-protégées, sans ruine du plancher. Les résultats de l’essai sont utilisés pour calibrer un modèle élément fini tridimensionnel. La calibration est effectuée en s’appuyant sur la distribution des températures dans les différents composants du plancher, la durée de résistance au feu, la forme des déformées et les modes de ruine. Ensuite, le modèle, qui peut reproduire le comportement thermo-mécanique d’un plancher mixte, est utilisé pour évaluer une proposition d’extension de la méthode FRACOF à des planchers mixtes comportant des poutres cellulaires. / In a fire situation, the decrease of the material properties of a structure can significantly modify its overall behaviour. Hence, during fire tests or real fires, very large deflections can be observed on a floor without any global collapse. This highlights the activation of a large-displacement plastic upper bound mechanism called membrane action. Thus, in spite of the property loss of concrete, reinforcement steel and constructional steel of the beams connected to a reinforced concrete or composite slab, the load bearing capacity of this slab is defined as an increasing function of its vertical deflection. In practice, the behaviour of composite steel and concrete floors can be assessed with simplified or advanced models, depending on the expected level of precision. For instance, the analytical method named FRACOF enables to study a whole floor at elevated temperatures, on the basis of the Eurocodes simplified models for the behaviour of steel and concrete. With this method, the load bearing capacity of a slab can then be estimated taking account of steel profiles connected to the slab and tensile membrane action in large displacements. This analytical method has been validated against finite elements models as well as results from full scale fire tests. It applies to hot-rolled steel profiles spanning up to 20 m. However, such spans require sections with a great moment of area to limit the floor deflection in serviceability state. In order to limit the amount of steel required, cellular beams can be utilized as a practical and aesthetical solution. A finite element model for steel and composite steel and concrete cellular beams is proposed in the scope of the PhD thesis. The thermo-mechanical behaviour of steel cellular beams is modelled under Cast3M code. Composite beams are modelled combining a heat transfer calculation under Cast3M to a mechanical analysis under ANSYS. The steel beams and the reinforced or composite slab are modelled with shell elements. The shear studs are modelled with beam elements. Besides, this 3D model takes into account both material and geometrical nonlinearities. It is compared with tests results at both normal and elevated temperatures. Once validated, the model is compared to an existing analytical method in order to check the precision and the level of conservatism of the latter. Then, cellular beams are studied as part of composite steel and concrete floors in a fire situation. A full-scale natural fire test puts into evidence tensile membrane action with unprotected cellular beams, without any overall collapse. The test results are used for calibrating a 3D finite element model. This calibration relies on the temperature distribution in the different parts of the floor components, the fire resistance degree, the deformed shape and the failure modes. The model, which can reproduce the thermo-mechanical behaviour of a composite floor, is then utilized for assessing an extension proposal of the FRACOF method to composite floors made of cellular beams.

Incendie

Eurocodes

Poutre cellulaire

Dalle mixte

Effet membrane

Méthode FRACOF

Éléments finis

Fire

Eurocodes

Cellular beam

Composite floor slab

Membrane action

FRACOF method

Finite element modelling

Železobetonová konstrukce vysoké administrativní budovy / The concrete structure of a high office building

Skuhravý, František

January 2018

Aim of The Diploma Thesis was to design load-bearing structure of a multi-storey reinforced concrete building, to realize structural analysis in Dlubal-RFEM software and dimension its selected parts. Designed structure is based on already erected building in office edifices campus in Brno-Slatina district. Its original number of storeys was increased from ten to nineteen, so the specific problems connected to high-rise building designing could be solved. Time dependent deformations of vertical structures were analysed in detail, so the changes in load of horizontal elements could be described more precisely, because of its direct dependence on compression of the columns. Within the paper, foundation structure dimensions were designed, assessment and design of composite columns assembly were made, as well of floor slab in 2nd floor with column deformations impact check on the 17th floor. Also, the external walls, pillars and shear core walls were designed and assessed. Formwork drawing of designed structure parts and detailed drawing of reinforcement of assessed elements were elaborated. Based on Diploma Thesis results it can be stated, that if influence of nonuniform load of vertical structures within the high-rise building designing is neglected, consequent project would presumably be uneconomic, or dangerous after an optimization attempts.