Interaction between hollow cored floor slabs and structural steelwork

Lam, Dennis, Elliott, K.S., Nethercot, D.A.

January 1995

No

Structural Steelwork

Floor Slabs

Hollow Cored

Cracking Control in Mezzanine Floor Slabs using Rice Husk Ash and Polypropylene Fibers

Cano, B., Cano, B., Galarza, J., Rodríguez, J., García, F.

28 February 2020

The continuous population increase in recent years requires a greater number of households to be built quickly, with good materials and produced under quality standards that guarantee their manufacturing process. The prefabricated concrete, produced and supplied by concrete plants, is poured into the different structural elements, the mezzanine slabs being the most careful surfaces in the appearance of fissures; because being horizontal and having larger dimensions, the dimensional changes in the concrete appear more frequently due to the rapid loss of water from the surface of the concrete before setting; which generates superior stresses to the resistant capacity of the concrete at early ages, which affect the durability and reduce the resistance of the structures, causing greater economic expenses in maintenance and repairs. In the present investigation, 5%, 10% and 15% of rice husk ash was used as a replacement for cement and 900g/m3 of polypropylene fiber; The results indicate that as the percentage of rice husk ash increases, there is a reduction in the slump and the crack fissures, and that the resistance to compression and flexion decreases, with respect to the concrete pattern.

Cracking Control

Mezzanine Floor Slabs

Rice Husk Ash

Polypropylene Fibers

Lateral Loading of Small-Scale Shear Wall Buildings with Floor Slabs

Speirs, John W.

03 1900

<p> This thesis describes the construction and testing of small-scale shear wall buildings with rigidly connected floor slabs, but without wall openings. A micro-concrete material was used in the casting of both the basic small-scale shear wall buildings and the floor slabs. The vertically cantilevered buildings were tested by applying a transverse static load at the top of the buildings.</p> <p> The behaviour of buildings with only floor slabs was compared with that of buildings containing only wall openings. The results of static loading of the buildings were compared with those results predicted analytically using Vlasov's thin-walled elastic beam theory.</p> / Thesis / Master of Engineering (MEngr)

Robustness of steel framed buildings with pre-cast concrete floor slabs

Miratashi Yazdi, Seyed Mansoor

January 2014

Following some incidents in high-rise buildings, such as Ronan Point London 1968, in which collapse of a limited number of structural elements progressed to a failure disproportionate to the initial cause, consideration of robustness was introduced in British Standard. The main method of preventing progressive collapse for providing robustness to steel framed buildings with precast concrete floor slabs focuses on the allowable tying forces that the reinforcement in between the slabs and in hollowcores should carry. However there are uncertainties about the basis of the practical rules associated with this method. This thesis presents the results of numerical and analytical studies of tie connection behaviour between precast concrete floor slabs (PCFS). It is shown that under current design regulations the tie connection is not able to resist the accidental load limit applied on the damaged floor slabs. By establishing the capability of a finite element model to depict and predict the behaviour of concrete members in situations such as arching and catenary action against several experimental tests, an extensive set of parametric studies was conducted in order to identify the effective parameters in enhancing the resistance of the tie connection between PCFSs. These parameters include: tie bar diameter, position, length, yield stress and ultimate strain; the slab’s height, length; and the compressive strength of the grouting concrete in between the slabs that encases the tie bar. Recommendations are made based on the findings of this parametric study in order to increase the resistance of the tie connection. Based on the identified effective parameters in the parametric study a predictive analytical relationship is derived which is capable of determining the maximum vertical displacement and load that the tie connection is able to undergo. This relationship can be used to enable the connection to capture the accidental limit load on a damaged slab. The identified parameters are examined in a three dimensional finite element model to assess their effect when columns of the structure are lost in different locations such as an edge, corner or internal column. Based on the findings of this study methods for improving the connections performance are presented. Also the effect of alternative transverse tying method is evaluated and it is concluded that although this kind of tie increases the load carrying capacity of the connection, its effect on the catenary action is not significant.

624.1

Hasičská stanice / Fire station

Horváthová, Radka

January 2022

The topic of the diploma thesis is the elaboration of project documentation for the construction of a fire station with almost zero energy consumption. The building will serve as a fire station type P4 with the scope of the JPO I unit - a unit of the fire department with a territorial scope, usually within 20 minutes drive from the place of deployment. The designed building is a detached object with two above-ground and one underground floor. The building is designed as a reinforced concrete skeleton. It consists of two operating units. The administrative and operational part has three floors. In this part, the main entrance to the building is on the 1st floor, oriented on the south side. The technical rooms of the fire department are located on the first floor and are functionally connected to the administrative part. Exit garages, a car wash and a dryer are also attached to it. Prior to the elaboration of the project, a visit to the regional fire station in Trnava and a consultation with the director of this station took place regarding the needs and requirements of the fire department.

Polyfunkční dům v Brně / Multifunctional Building in Brno

Skoupá, Karolina

January 2017

This diploma thesis deals with the supporting structure of the Multifunctional house in Brno. Elements are solved locally supported slab, columns, walls, patka.Statický calculation of internal forces was conducted in Scia Engineering.

Mateřská škola / Kindergarten

Papst, Ondřej

Unknown Date

The aim of the diploma thesis is processing of the design documentation for realization of the construction of a kindergarten in Havlíčkův Brod. It is a detached single-storey building that is functionally divided into three basic parts – the middle one, that contains a canteen with a preparation area and a serving hatch of food, and two connected side parts, left one and right one, each one of them is used as a classroom of the kindergarten with capacity up to 20 children for each class. The structural system of the building is created by a masonry system made of hollow bricks. The floor structure is designed of prefabricated prestressed concrete floor slabs, the roofing of the building is made of warm flat roof with extensive green vegetation covering. The external wall is supplied by ventilated facade which one is created by contact thermal insulation and by facade cladding of cement-bonded particle board. The building is set in a lightly sloping terrain.

Sportovní centrum / Sports Centre

Sauer, Vít

January 2018

The content of the master´s thesis is new building sports hall of ball sports. This building has contains no cellar and three above-ground floors. In ground floor, there are playing area, changing rooms, relevant functional facilities including utility rooms. The first floor is completely reserved for spectators, there are tribune for sitting spectators, gallery for standing spectators, hygienic rooms and buffet for spectators. In the third floor, there are rooms for VIP spectators, briefing room, head office of sports hall including conference room, spaces for TV transmission, hygienic rooms and utility room. Object is based on concrete foundation pads and strips foundation. Structural system of the object is combination of column system from cast-inplace reinforced concrete and wall system from brickwork. Floor structures over above the first and second floor are designed as castin- place reinforced concrete, floor structure above the third floor is folded from wood beams. Loadbearing structure of roof is system of glue laminated timber girders, roof cladding is mechanically anchored.

Víceúčelový objekt Brno / Multifunctional building in Brno

Večeřa, Lukáš

January 2016

This thesis solves new building multifunctional building in Brno in the form of documentation for construction. The work contains text, drawings and calculation part. The building is designed as a detached and located in a slightly sloping terrain. The new building is designed as a four-storey with basement and three floors. The facility is designed sixteen and four residential rental units. The structural system is a cross- walled ceramic fittings. Horizontal structures ceilings are made of precast filigree ceiling tiles with nadbetonovanou distribution plates. The roof is designed as a single-layer flat. Part of the main road in the building is designed passenger elevator. The work process basic assessment of building in terms of building physics and approximate calculation of the base area.

Hotel / Hotel

Řehoř, David

January 2015

The objective of this thesis is to draw up the design documentation for the construction of a hotel. The hotel is situated on the edge of the golf resort Kaskáda near to Jinačovice. It’s a brick building with two above – ground floors and one underground. There is the staircase in the building that creates protected escape route. The perimeter wall is designed of ceramic bricks Porotherm T Profi. They are filled – in by mineral wool. The hotel is divided into three dilatational parts. There are 35 guest rooms in the hotel; two of them are barrier – free, in total 63 beds. In the ground floor there are entrance, reception, restaurant, bar, kitchen with the background. In the basement there are technical equipment, a fitness room, a wellness, changing rooms, washrooms and a bar. The roof of the hotel is flat. There is the terrace accessible from the apartments in the second floor above the restaurant.