magistrsko delo
Sanel Djedović (Author), Tomo Cerovšek (Mentor), Boštjan Brank (Thesis defence commission member), Janko Logar (Thesis defence commission member)

Abstract

Magistrsko delo obravnava problematiko večmaterialnega projektiranja gradbenih konstrukcij na osnovi referenčnih arhitekturnih modelov. Izdelali smo procesno in produktno analizo večmaterialnega projektiranja ter predlagali pristop in prikazali uporabo za tri gradbene materiale (beton, jeklo in les). V okviru procesne analize smo z metodologijo IDEFØ (Integration DEFinition) obravnavali procese projektiranja gradbenih konstrukcij. Podrobno smo opisali procesni model obstoječega načina izdelave projekta za pridobitev gradbenega dovoljenja in projekta za izvedbo ter predstavili predlog prenove procesov sodobnega projektiranja in večmaterialnega projektiranja. Pri analizi smo upoštevali ključne udeležence gradbenega projekta ter njihove odgovornosti. Prikazali smo tudi bistvene prednosti celostnega pristopa projektiranja, ki predstavlja skupaj s tehnologijo BIM, nove možnosti za uvajanje sodobnega večmaterialnega projektiranja, ki je najprej ilustriran na primeru enostavnega nadstreška. V okviru produktne analize smo opravili pregled tehnologij gradnje z obravnavanimi materiali ter navedli njihove morebitne prednosti in slabosti. Na podlagi izvedene procesne in produktne analize projektiranja je v sklepnem delu opisan postopek večmaterialnega modeliranja večjega objekta. Modelirali smo s pomočjo orodij BIM (Tekla Structures, LigniKon in ArchiCAD), ki so namenjena za modeliranje arhitekture in gradbenih konstrukcij. Modeliranje je potekalo na podlagi referenčnega arhitekturnega modela, ki je bil izdelan v ArchiCAD-u in na podlagi interoperabilnega postopka dela med programoma ArchiCAD in Tekla Structures, ki temelji na standardu IFC. Poleg tega je predstavljen pregled nekaterih relevantnih orodij BIM in pomen interoperabilnosti med takimi orodji ter predlogi za izboljšave in nadaljnji razvoj pristopa.

Keywords

gradbeništvo;magistrsko delo;večmaterialno projektiranje;parametrično modeliranje;procesno modeliranje;IDEF;BIM;Tekla Structures;ArchiCAD;LigniKon;ICF;tehnologije gradnje;projekt za pridobitev gradbenega dovoljenja;projekt za izvedbo;

Data

Language: Slovenian
Year of publishing:
Source: Ljubljana
Typology: 2.09 - Master's Thesis
Organization: UL FGG - Faculty of Civil and Geodetic Engineering
Publisher: [S. Djedović]
UDC: 004:624.07:69(043.3)
COBISS: 6583137 Link will open in a new window
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Downloads: 582
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Other data

Secondary language: English
Secondary title: The use of BIM reference models for multi-material structural design
Secondary abstract: Master thesis deals with multi-material structural design that is based on reference architectural model. We performed process and product analysis that is relevant for multi-material structural design and proposed and demonstrated its use for three construction materials (concrete, steel and wood) In the frames of process analysis we used IDEFØ methodology to describe AS-IS structural design. A detailed description of process models of existing design procedures for building permit and production documentation is presented. We also proposed TO-BE multi-material structural design process model. In the process analysis main project stakeholders and their roles were taken into account. To achieve desired re-engineering into multi-material structural design the whole building design and BIM were identified as driving forces. The multi-material design is first illustrated on simple case study. In the frames of building product analysis construction technologies and their potential advantages and disadvantages in the case of three construction materials is given. In the concluding part the result of process and product modelling of multi-material structural design is demonstrated on a larger building. Modelling is executed using BIM tools (Tekla Structures, LigniKon and ArchiCAD) that are used for architectural and structural design. Demonstrated multi-material structural design procedure is based on the architectural reference model, which was created in ArchiCAD. The workflow takes the advanced of inter-operability between ArchiCAD and Tekla Structures using the IFC standard. In addition, an overview of applicability of several BIM tools for multi-material modelling is given. We also assess important issues for the inter-operability between BIM tools and provide suggestions for the improvements and further development of multi-material design.
Secondary keywords: civil engineering;master of science thesis;multi-material structural design;parametric modelling;process modelling;IDEF;BIM;ArchiCAD;LigniKon;IFC;construction technologies;procedure to obtain a building permit;project for execution;
File type: application/pdf
Type (COBISS): Master's thesis/paper
Thesis comment: Univ. v Ljubljani, Fak. za gradbeništvo in geodezijo
Pages: XXX, 196 str., 7 pril.
Type (ePrints): thesis
Title (ePrints): Uporaba referenčnih modelov BIM za večmaterialno projektiranje
Keywords (ePrints): večmaterialno projektiranje;parametrično modeliranje;procesno modeliranje;IDEF;BIM;Tekla Structures;ArchiCAD;LigniKon;IFC;tehnologije gradnje;projekt za pridobitev gradbenega dovoljenja;projekt za izvedbo
Keywords (ePrints, secondary language): multi-material structural design;parametric modelling;process modelling;IDEF;BIM;ArchiCAD;LigniKon;IFC;construction technologies;procedure to obtain a building permit;project for execution
Abstract (ePrints): Magistrsko delo obravnava problematiko večmaterialnega projektiranja gradbenih konstrukcij na osnovi referenčnih arhitekturnih modelov. Izdelali smo procesno in produktno analizo večmaterialnega projektiranja ter predlagali pristop in prikazali uporabo za tri gradbene materiale (beton, jeklo in les). V okviru procesne analize smo z metodologijo IDEFØ (Integration DEFinition) obravnavali procese projektiranja gradbenih konstrukcij. Podrobno smo opisali procesni model obstoječega načina izdelave projekta za pridobitev gradbenega dovoljenja in projekta za izvedbo ter predstavili predlog prenove procesov sodobnega projektiranja in večmaterialnega projektiranja. Pri analizi smo upoštevali ključne udeležence gradbenega projekta ter njihove odgovornosti. Prikazali smo tudi bistvene prednosti celostnega pristopa projektiranja, ki predstavlja skupaj s tehnologijo BIM, nove možnosti za uvajanje sodobnega večmaterialnega projektiranja, ki je najprej ilustriran na primeru enostavnega nadstreška. V okviru produktne analize smo opravili pregled tehnologij gradnje z obravnavanimi materiali ter navedli njihove morebitne prednosti in slabosti. Na podlagi izvedene procesne in produktne analize projektiranja je v sklepnem delu opisan postopek večmaterialnega modeliranja večjega objekta. Modelirali smo s pomočjo orodij BIM (Tekla Structures, LigniKon in ArchiCAD), ki so namenjena za modeliranje arhitekture in gradbenih konstrukcij. Modeliranje je potekalo na podlagi referenčnega arhitekturnega modela, ki je bil izdelan v ArchiCAD-u in na podlagi interoperabilnega postopka dela med programoma ArchiCAD in Tekla Structures, ki temelji na standardu IFC. Poleg tega je predstavljen pregled nekaterih relevantnih orodij BIM in pomen interoperabilnosti med takimi orodji ter predlogi za izboljšave in nadaljnji razvoj pristopa.
Abstract (ePrints, secondary language): Master thesis deals with multi-material structural design that is based on reference architectural model. We performed process and product analysis that is relevant for multi-material structural design and proposed and demonstrated its use for three construction materials (concrete, steel and wood) In the frames of process analysis we used IDEFØ methodology to describe AS-IS structural design. A detailed description of process models of existing design procedures for building permit and production documentation is presented. We also proposed TO-BE multi-material structural design process model. In the process analysis main project stakeholders and their roles were taken into account. To achieve desired re-engineering into multi-material structural design the whole building design and BIM were identified as driving forces. The multi-material design is first illustrated on simple case study. In the frames of building product analysis construction technologies and their potential advantages and disadvantages in the case of three construction materials is given. In the concluding part the result of process and product modelling of multi-material structural design is demonstrated on a larger building. Modelling is executed using BIM tools (Tekla Structures, LigniKon and ArchiCAD) that are used for architectural and structural design. Demonstrated multi-material structural design procedure is based on the architectural reference model, which was created in ArchiCAD. The workflow takes the advanced of inter-operability between ArchiCAD and Tekla Structures using the IFC standard. In addition, an overview of applicability of several BIM tools for multi-material modelling is given. We also assess important issues for the inter-operability between BIM tools and provide suggestions for the improvements and further development of multi-material design.
Keywords (ePrints, secondary language): multi-material structural design;parametric modelling;process modelling;IDEF;BIM;ArchiCAD;LigniKon;IFC;construction technologies;procedure to obtain a building permit;project for execution
ID: 8327079