Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic

There are many factors that influence slope failure such as natural disasters and human activities. Amongst the major causes are the rise of groundwater and infiltration of prolonged and antecedent rainfalls. Together with its geographical condition; high lands and mountains, Malaysia is prone to ha...

Full description

Saved in:
Bibliographic Details
Main Authors: Omar R.C., Baharuddin I.N.Z., Taha H., Roslan R., Hazwani N.K., Muzad M.F.
Other Authors: 35753735300
Format: Article
Published: Science Publishing Corporation Inc 2023
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uniten.dspace-24008
record_format dspace
spelling my.uniten.dspace-240082023-05-29T14:54:14Z Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic Omar R.C. Baharuddin I.N.Z. Taha H. Roslan R. Hazwani N.K. Muzad M.F. 35753735300 55812431300 54279619100 57159693200 55812452000 57205237878 There are many factors that influence slope failure such as natural disasters and human activities. Amongst the major causes are the rise of groundwater and infiltration of prolonged and antecedent rainfalls. Together with its geographical condition; high lands and mountains, Malaysia is prone to have landslides especially at the Main Range area where most of the soil is residual soil. This study investigated a slope which had a history of landslide due to circular failure landslide using Slope/W, resistivity and seismic surveys to determine the physical and mechanical properties of the on-site materials. Based on the resistivity survey, the existence of groundwater level has been detected at a depth of 10.0 m from the ground level. Seismic analysis showed that the subsurface area was made up of Weathered Granite Grade VI (sandy soil) which is loose to medium dense. SLOPE/W analysis showed that the factor of safety (FOS) was 0.186 which was unstable for slope stability condition. The assessment showed that the slope condition is still not stable despite slope stabilization measurement using cement grouting. It is proposed that erosion control measures on the slope surface should be implemented to prevent recurrent of slope failure and to ensure slope stability. � 2018 Authors. Final 2023-05-29T06:54:13Z 2023-05-29T06:54:13Z 2018 Article 10.14419/ijet.v7i4.35.22355 2-s2.0-85059244172 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059244172&doi=10.14419%2fijet.v7i4.35.22355&partnerID=40&md5=ca090d8ef3ea732ce612878cc7550201 https://irepository.uniten.edu.my/handle/123456789/24008 7 4 172 176 Science Publishing Corporation Inc Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description There are many factors that influence slope failure such as natural disasters and human activities. Amongst the major causes are the rise of groundwater and infiltration of prolonged and antecedent rainfalls. Together with its geographical condition; high lands and mountains, Malaysia is prone to have landslides especially at the Main Range area where most of the soil is residual soil. This study investigated a slope which had a history of landslide due to circular failure landslide using Slope/W, resistivity and seismic surveys to determine the physical and mechanical properties of the on-site materials. Based on the resistivity survey, the existence of groundwater level has been detected at a depth of 10.0 m from the ground level. Seismic analysis showed that the subsurface area was made up of Weathered Granite Grade VI (sandy soil) which is loose to medium dense. SLOPE/W analysis showed that the factor of safety (FOS) was 0.186 which was unstable for slope stability condition. The assessment showed that the slope condition is still not stable despite slope stabilization measurement using cement grouting. It is proposed that erosion control measures on the slope surface should be implemented to prevent recurrent of slope failure and to ensure slope stability. � 2018 Authors.
author2 35753735300
author_facet 35753735300
Omar R.C.
Baharuddin I.N.Z.
Taha H.
Roslan R.
Hazwani N.K.
Muzad M.F.
format Article
author Omar R.C.
Baharuddin I.N.Z.
Taha H.
Roslan R.
Hazwani N.K.
Muzad M.F.
spellingShingle Omar R.C.
Baharuddin I.N.Z.
Taha H.
Roslan R.
Hazwani N.K.
Muzad M.F.
Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic
author_sort Omar R.C.
title Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic
title_short Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic
title_full Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic
title_fullStr Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic
title_full_unstemmed Slope stability analysis of granitic residual soil using Slope/W, resistivity and seismic
title_sort slope stability analysis of granitic residual soil using slope/w, resistivity and seismic
publisher Science Publishing Corporation Inc
publishDate 2023
_version_ 1806427456924549120
score 13.222552