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 Sathyabama Institute of Science and Technology B.E. - Civil Engineering SARA3021 Steel in Architectural Design Syllabus SATHYABAMA INSTITUTE OF SCIENCE AND TECHNOLOGY SCHOOL OF BUILDING AND ENVIRONMENT SARA3021 STEEL IN ARCHITECTURAL DESIGN L T P Credits Total Marks 3 0 0 3 100 UNIT 1 STEEL STRUCTURE 13 Hrs. Standard structural steel - thermal properties - Fireproofing Methods - Steel Sheeting - Types of Sheeting Light roofing materials (Recent trends in roofing materials like Corrugated GI Sheets, Pre-coated metal sheets, Polycarbonate sheeting, Teflon coated sheets, PTFE Steel alloys properties and uses) - Long span structures using steel - Steel Roofing namely cable structures - Cable suspended roof, Hyperbolic paraboloid roof, Catenary, Pneumatic & Membrane roof -mention their Concept, Development, Laws of formation, Merits and Demerits- Vertical, Horizontal & Hexagonal joints. UNIT 2 COMPOSITE CONSTRUCTION USING STRUCTURAL STEEL 8 Hrs. Concept of Composite materials - structural engineering & Material properties - Flitch Beam - Lightweight construction Foam Concrete - Ferro Cement - Fibre Reinforced Concrete Other composite construction materials. UNIT 3 DESIGN, APPLICATIONS AND CONSTRUCTION OF STEEL BUILDINGS 12 Hrs. Steel buildings design -Study of innovations in steel industry - Design and construction parameters developed by INSDAG.- Concept of Recycled Steel - manufacture and assemble steel framed buildings - factories - multi-storey buildings and car parks - commercial buildings - Industrial and agricultural buildings - Bridges and multi-storey steel framed structures - The Case Studies include KCR Terminal at Hung Hom, Hong Kong, B3 Offices in Stockley Park, Renault Centre and Swindon By Normal Foster, Inmos Microchip Factory, Bridges and Public Bus Stop in St. Gallen, IBM Traveling Exhibition Pavilion UNIT 4 DOCUMENTATIONS, SEMINARS, WORKSHOP ON INNOVATIVE TECHNOLOGIES 12 Hrs. Documentation - Innovative Steel Buildings - International & Indian Context - Construction Methods & Techniques - Seminar to present a study of architectural form and structural expression through selected - case studies which will aid understanding of structural philosophy and analysis, building envelope and services and construction sequence - work shop on steel to be organized to give students hands on experience. Max. 45 Hrs. COURSE OUTCOMES On completion of the course, student will be able to CO1 - Understanding the properties, characteristics, strength, manufacture, processing, application and use of steel in large span structures. CO2 - Knowledge of composite construction materials using structural steel and their application in construction. CO3 - Acquaintance with various standards and accepted industrial practices in the Indian and the international context. CO4 - Familiarity with innovative design of multi-storey buildings, car parks, commercial, Industrial, agricultural buildings and Bridges using steel through case studies. And hands on workshops. TEXT / REFERENCE BOOKS 1. Stanley W. Crawley, Robert M. Dillon, "Steel Buildings: Analysis and Design", John Wiley & Sons, Inc.,1993 2. Roger Brockenbrough, Frederick Merritt, Merritt Frederick, "Structural Steel Designer’s Handbook", McGraw Hill Companies, Inc. 1999 3. Michael Barnes, Michael Dickson, "Widespan Roof Structures", Thomas Telford, 2000 4. Martorell, Bohigas & Mackay, "Pavilion of the Future", Expo 92, Seville (MBM), 1992. 5. Prada Aoyama Tokyo Herzog and De Meuron. Milan, IT: Progetto Prada Arte Srl, 2003 6. Christopher Beorkrem, "Material Strategies in Digital Fabrication", Routledge, Taylor & Francis Group, 2012. END SEMESTER EXAMINATION QUESTION PAPER PATTERN Max. Marks: 100 Exam Duration: 3 Hrs. PART A: 2 Questions from each unit, each carrying 5 marks 40 Marks PART B: 2 Questions from each unit with an internal choice, each carrying 15 marks 60 Marks   |
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