Development of Lightweight Steel Framed Construction Systems for Nearly-Zero Energy Buildings

Light steel frame (LSF) building systems offer high structural resilience, lower costs due to fast prefabrication, and high ability to recycle and reuse. The main goal of this paper was to provide state-of-the-art main components for such systems with the intention to be implemented for use in nearl...

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Published inBuildings (Basel) Vol. 12; no. 7; p. 929
Main Authors Jelčić Rukavina, Marija, Skejić, Davor, Kralj, Anton, Ščapec, Tomislav, Milovanović, Bojan
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2022
Subjects
Building construction
Cold
Construction
Construction industry
Design parameters
Emissions
Energy consumption
Energy efficiency
Energy research
Engineers
Fire resistance
Green buildings
Houses
HVAC
Insulation
insulation materials
lightweight steel frame (LSF)
Masonry
nearly-zero energy buildings (NZEB)
Prefabricated buildings
R&D
Research & development
Sheathing
sheathing boards
Steel
Steel construction
Steel frames
Studs
Wool
World War II
France
United States > US
Virginia
Online AccessGet full text
ISSN2075-5309
2075-5309
DOI10.3390/buildings12070929

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Abstract Light steel frame (LSF) building systems offer high structural resilience, lower costs due to fast prefabrication, and high ability to recycle and reuse. The main goal of this paper was to provide state-of-the-art main components for such systems with the intention to be implemented for use in nearly-zero energy buildings (NZEBs). A brief historical outline of the development of LSF systems was given, and the key parameters affecting the design and use of LSF systems were discussed. The influence of the individual components of the LSF system (steel studs, sheathing boards, and insulation materials) was then thoroughly discussed in light of relevant research on energy efficiency and other important properties (such as sound protection and fire resistance). Web of Science and Scopus databases were used for this purpose, using relevant key words: LSF, energy efficiency, sheathing boards, steel studs, insulation, etc. Several research gaps were identified that could be used for development and future research on new LSF systems. Finally, based on the analysis of each component, an innovative LSF composite wall panel was proposed which will be the subject of the authors’ future research. Conducted preliminary analysis showed low thermal transmittance of the system and indicates the path of its further research.
AbstractList Light steel frame (LSF) building systems offer high structural resilience, lower costs due to fast prefabrication, and high ability to recycle and reuse. The main goal of this paper was to provide state-of-the-art main components for such systems with the intention to be implemented for use in nearly-zero energy buildings (NZEBs). A brief historical outline of the development of LSF systems was given, and the key parameters affecting the design and use of LSF systems were discussed. The influence of the individual components of the LSF system (steel studs, sheathing boards, and insulation materials) was then thoroughly discussed in light of relevant research on energy efficiency and other important properties (such as sound protection and fire resistance). Web of Science and Scopus databases were used for this purpose, using relevant key words: LSF, energy efficiency, sheathing boards, steel studs, insulation, etc. Several research gaps were identified that could be used for development and future research on new LSF systems. Finally, based on the analysis of each component, an innovative LSF composite wall panel was proposed which will be the subject of the authors’ future research. Conducted preliminary analysis showed low thermal transmittance of the system and indicates the path of its further research.
Author Milovanović, Bojan
Skejić, Davor
Jelčić Rukavina, Marija
Kralj, Anton
Ščapec, Tomislav
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  year: 2007
  ident: ref_27
  article-title: Light steel framing for residential buildings
  publication-title: Thin-Walled Struct.
  doi: 10.1016/j.tws.2007.01.006
– ident: ref_36
– ident: ref_19
– ident: ref_60
– ident: #cr-split#-ref_66.1
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Snippet Light steel frame (LSF) building systems offer high structural resilience, lower costs due to fast prefabrication, and high ability to recycle and reuse. The...
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SubjectTerms Building construction
Cold
Construction
Construction industry
Design parameters
Emissions
Energy consumption
Energy efficiency
Energy research
Engineers
Fire resistance
Green buildings
Houses
HVAC
Insulation
insulation materials
lightweight steel frame (LSF)
Masonry
nearly-zero energy buildings (NZEB)
Prefabricated buildings
R&D
Research & development
Sheathing
sheathing boards
Steel
Steel construction
Steel frames
Studs
Wool
World War II
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Title Development of Lightweight Steel Framed Construction Systems for Nearly-Zero Energy Buildings
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https://doaj.org/article/8c29113d529847c981f3c4874a0864d6
Volume 12
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