Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri

The Green Building Index (GBI) launched on 21st March 2009 formalised the commitment of the Malaysian Government towards sustainable issues. In line with this, the use of crushed concrete waste aggregate (CCwA) as a coarse aggregate in mix production of wall panel structural element was investigated...

Full description

Saved in:
Bibliographic Details
Main Author: Sobri, Mohd Suhelmiey
Format: Thesis
Language:English
Published: 2011
Online Access:https://ir.uitm.edu.my/id/eprint/17568/4/17568.pdf
https://ir.uitm.edu.my/id/eprint/17568/
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uitm.ir.17568
record_format eprints
spelling my.uitm.ir.175682022-08-24T07:43:50Z https://ir.uitm.edu.my/id/eprint/17568/ Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri Sobri, Mohd Suhelmiey The Green Building Index (GBI) launched on 21st March 2009 formalised the commitment of the Malaysian Government towards sustainable issues. In line with this, the use of crushed concrete waste aggregate (CCwA) as a coarse aggregate in mix production of wall panel structural element was investigated. This research was conducted to study the behaviour of the steel fabric reinforced concrete short wall panel as IBS component incorporating CCwA replacing the Natural Aggregate (NA). Ten (10) samples were prepared using Grade 30 normal Ordinary Portland Cement (OPC) concrete with water cement ratio of 0.55, measuring 75 mm x 500 mm x 1000 mm (Thickness:Height:Length). The aspect ratio (H/L) and slendemess ratio (H/t) of the wall panel were 0.5 and 6.67 respectively. Two (2) wall panels were prepared with single layer and two (2) wall panels with double layer steel fabric using CCwA as a coarse aggregate. Two (2) more wall panel sample with single and double layers each using Natural Aggregate (NA) as control samples. In addition, four (4) samples (2 single layer and 2 double layers were tested on fatigue load test to determine the ultimate cycles at failure. The short wall panel was subjected to compressive axial and fatigue load with pinned-fixed end conditions at upper and lower ends. The experimental result shows that all ten (10) wall panels failed in compression shear with crushing at upper and lower end edges of the wall panel. The average ultimate load for single and double layer steel fabric reinforced concrete short wall panel were 1349 kN and 1643 kN respectively. A single curvature crushing crack pattern was dominant for all samples with average maximum lateral displacement for single and double layer of steel fabric reinforced concrete short wall panel were 2.9 mm and 3.8 mm respectively, both occurred at 375 mm (0.7H) wall height. The structural behaviour of reinforced concrete short wall panel using CCwA as a coarse aggregate was similar with wall panel using NA in terms of structure strength capacity, displacement profile, and mode of failure. The percentage of difference between using CCwA and NA in wall panel in term of ultimate strength was decreased by 5.5 % and 6.6 % for single layer and double layer of wall panel respectively. The findings confirmed that the performance of CCwA is as good as NA. The use of CCwA wall panel helps to reduce unnecessary wastages and also prevent depletion of natural resources. Hence, using CCwA wall panels also addresses one of the six key criteria of GBI, which is Material and Resources. "Malaysia is Green". 2011-06 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/17568/4/17568.pdf Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri. (2011) Masters thesis, thesis, Universiti Teknologi MARA. <http://terminalib.uitm.edu.my/17568.pdf>
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
description The Green Building Index (GBI) launched on 21st March 2009 formalised the commitment of the Malaysian Government towards sustainable issues. In line with this, the use of crushed concrete waste aggregate (CCwA) as a coarse aggregate in mix production of wall panel structural element was investigated. This research was conducted to study the behaviour of the steel fabric reinforced concrete short wall panel as IBS component incorporating CCwA replacing the Natural Aggregate (NA). Ten (10) samples were prepared using Grade 30 normal Ordinary Portland Cement (OPC) concrete with water cement ratio of 0.55, measuring 75 mm x 500 mm x 1000 mm (Thickness:Height:Length). The aspect ratio (H/L) and slendemess ratio (H/t) of the wall panel were 0.5 and 6.67 respectively. Two (2) wall panels were prepared with single layer and two (2) wall panels with double layer steel fabric using CCwA as a coarse aggregate. Two (2) more wall panel sample with single and double layers each using Natural Aggregate (NA) as control samples. In addition, four (4) samples (2 single layer and 2 double layers were tested on fatigue load test to determine the ultimate cycles at failure. The short wall panel was subjected to compressive axial and fatigue load with pinned-fixed end conditions at upper and lower ends. The experimental result shows that all ten (10) wall panels failed in compression shear with crushing at upper and lower end edges of the wall panel. The average ultimate load for single and double layer steel fabric reinforced concrete short wall panel were 1349 kN and 1643 kN respectively. A single curvature crushing crack pattern was dominant for all samples with average maximum lateral displacement for single and double layer of steel fabric reinforced concrete short wall panel were 2.9 mm and 3.8 mm respectively, both occurred at 375 mm (0.7H) wall height. The structural behaviour of reinforced concrete short wall panel using CCwA as a coarse aggregate was similar with wall panel using NA in terms of structure strength capacity, displacement profile, and mode of failure. The percentage of difference between using CCwA and NA in wall panel in term of ultimate strength was decreased by 5.5 % and 6.6 % for single layer and double layer of wall panel respectively. The findings confirmed that the performance of CCwA is as good as NA. The use of CCwA wall panel helps to reduce unnecessary wastages and also prevent depletion of natural resources. Hence, using CCwA wall panels also addresses one of the six key criteria of GBI, which is Material and Resources. "Malaysia is Green".
format Thesis
author Sobri, Mohd Suhelmiey
spellingShingle Sobri, Mohd Suhelmiey
Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri
author_facet Sobri, Mohd Suhelmiey
author_sort Sobri, Mohd Suhelmiey
title Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri
title_short Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri
title_full Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri
title_fullStr Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri
title_full_unstemmed Structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / Mohd Suhelmiey Sobri
title_sort structural performance of steel fabric reinforced concrete short wall panel using crushed concrete waste aggregate / mohd suhelmiey sobri
publishDate 2011
url https://ir.uitm.edu.my/id/eprint/17568/4/17568.pdf
https://ir.uitm.edu.my/id/eprint/17568/
_version_ 1743110361115000832
score 13.211869