Firstly, one has to check if the design shear force V d is smaller than the maximum punching strength V Rd,max. This is done assuming k sys=2. The design shear force V d is below the maximum punching strength V Rd,max. Therefore, the slab can be reinforced with shear reinforcement complying with detailing rules defined in subclause §7.13.5.3. Hand Calculation for Typical Flat Slab Design Based on: BS 8110 1997 TR 43 - 1st Edition Prepared by: Nov. 2008 jea.org.jo [email protected] Engineers Training Center Two Way Post-tension Flat Slabs: A post-tensioned prestressed banded flat slab floor system for an office complex is shown in figure.1 together with atypical sub-frame section. Flat Plate Slabs •Under unbalanced loads, moments and shears are induced in the slab. To calculate the moments and stresses due to unbalanced service loads and to calculate the factored design moments and shears in the slab (in order to check for strength), one of the methods described in the following sections may be adopted. (1) Frame analysis Each Slab is equipped with an internal 1 Flat slab system is an important division of concrete floor system 2, gradually approachin the condition of a flat plate SLAB/FOOTING USED Q) Design a floor slab for an interior room, with clear dimensions of 3 Premiere Pro Presets Folder Q) Design a floor slab for an interior room, with clear dimensions INTRODUCTION 1.1 General A flat slab is a two-way reinforced concrete slab that usually does not have beams and girders, and the loads are transferred directly to the supporting concrete columns. They are subjected to both vertical and lateral loads. There are three approaches to designing for shear: • When shear reinforcement is notrequired e.g. usually slabs • When shear reinforcement isrequired e.g. Beams, see Lecture 3 • Punching shear requirements e.g. flat slabs The maximum shear strength in the UK should not exceed that of class C50/60 concrete EC2 Webinar - Autumn 2016 Lecture 5/3 Design a one‐way slab for an interior bay of a multi‐story office building using the information specified below. Neglect compression reinforcement. Assume partitions cannot be damaged by deflections. Round slab thickness up to the nearest ¼". Use a spreadsheet to design each section and show your results with a sketch (elevation view). The thickness of a floor slab must be determined early in design because the weight of the slab is an important part of the dead load of the structure. The minimum thickness can be determined by many factors: • Shear strength of beamless slabs (usually a controlling factor); slab must be thick enough to provide adequate shear strength The design I am going to share with you today is Design of Flat Plate Slab as by definition; Flat plate slab is that in which slab is directly supported on columns without column capital, drop panel or beams The slabs are divided into two parts: Column and Middle strips, Column strip includes the beam if present Learn More ' Orgon Slab Download & View Flat Slab Design as PDF for free. More details. Words: 2,612; Pages: 76; Preview; Full text; DESIGN AND DETAILING OF FLAT SLAB ESE SOEDARSONO HS 27 FEBRUARY 2002 In the concrete column with flat plate design, the connection is more simplified without the need for base plate connection. In this case, reinforcement bars should be properly detailed between the columns and slabs. Punching shear checks are critical and vertical shear reinforcement should be detailed accordingly. Civil Eng
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