Ripping production prediction in different weathering zones according to field data

In response to the environmental restrictions and the blasting problems, ripping method as a surface excavation method is the most commonly-used in construction of many civil engineering systems. So, it is essential to provide a more applicable rippability model that can effectively predict ripping...

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Main Authors: Tonnizam Mohamad, E., Jahed Armaghani, D., Ghoroqi, M., Yazdani Bejarbaneh, B., Ghahremanians, T., Abd. Majid, M. Z., Tabrizi, O.
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Published: Springer International Publishing 2017
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Online Access:http://eprints.utm.my/id/eprint/76202/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019140055&doi=10.1007%2fs10706-017-0254-4&partnerID=40&md5=476ef1ac1ebf90fc42da90579e0f5fb9
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spelling my.utm.762022018-06-26T07:52:50Z http://eprints.utm.my/id/eprint/76202/ Ripping production prediction in different weathering zones according to field data Tonnizam Mohamad, E. Jahed Armaghani, D. Ghoroqi, M. Yazdani Bejarbaneh, B. Ghahremanians, T. Abd. Majid, M. Z. Tabrizi, O. TA Engineering (General). Civil engineering (General) In response to the environmental restrictions and the blasting problems, ripping method as a surface excavation method is the most commonly-used in construction of many civil engineering systems. So, it is essential to provide a more applicable rippability model that can effectively predict ripping production (Q) in the field. This paper presents several new models/equations for prediction of Q in diverse weathering zones (grade from II to V) based on field observations and in situ tests. To do this, four sites in Johor state, Malaysia were selected and a total of 123 direct ripping tests were carried out on two types of sedimentary rocks, namely, sandstone and shale. Based on literature’s suggestions and possible conducted field works, point load strength index, sonic velocity, Schmidt hammer rebound number and joint spacing were chosen to estimate Q in different weathering zones. Then, simple and multiple regression analyses, namely linear multiple regression (LMR) and non-linear multiple regression (NLMR) were performed to predict Q. The simple regression analysis generally showed an acceptable and meaningful correlation between the Q and input variables. Additionally, a range of 0.582–0.966 was obtained for coefficient of determination (R2) values of developed LMR models while this range was observed from 0.586 to 0.949 for proposed NLMR models. As a result, both the LMR and NLMR models deliver almost the same predictive performance in estimating the Q for various weathering zones. Nevertheless, in most of the cases, NLMR models can provide higher performance prediction in estimating Q compared to LMR models. Springer International Publishing 2017 Article PeerReviewed Tonnizam Mohamad, E. and Jahed Armaghani, D. and Ghoroqi, M. and Yazdani Bejarbaneh, B. and Ghahremanians, T. and Abd. Majid, M. Z. and Tabrizi, O. (2017) Ripping production prediction in different weathering zones according to field data. Geotechnical and Geological Engineering, 35 (5). pp. 2381-2399. ISSN 0960-3182 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019140055&doi=10.1007%2fs10706-017-0254-4&partnerID=40&md5=476ef1ac1ebf90fc42da90579e0f5fb9
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TA Engineering (General). Civil engineering (General)
spellingShingle TA Engineering (General). Civil engineering (General)
Tonnizam Mohamad, E.
Jahed Armaghani, D.
Ghoroqi, M.
Yazdani Bejarbaneh, B.
Ghahremanians, T.
Abd. Majid, M. Z.
Tabrizi, O.
Ripping production prediction in different weathering zones according to field data
description In response to the environmental restrictions and the blasting problems, ripping method as a surface excavation method is the most commonly-used in construction of many civil engineering systems. So, it is essential to provide a more applicable rippability model that can effectively predict ripping production (Q) in the field. This paper presents several new models/equations for prediction of Q in diverse weathering zones (grade from II to V) based on field observations and in situ tests. To do this, four sites in Johor state, Malaysia were selected and a total of 123 direct ripping tests were carried out on two types of sedimentary rocks, namely, sandstone and shale. Based on literature’s suggestions and possible conducted field works, point load strength index, sonic velocity, Schmidt hammer rebound number and joint spacing were chosen to estimate Q in different weathering zones. Then, simple and multiple regression analyses, namely linear multiple regression (LMR) and non-linear multiple regression (NLMR) were performed to predict Q. The simple regression analysis generally showed an acceptable and meaningful correlation between the Q and input variables. Additionally, a range of 0.582–0.966 was obtained for coefficient of determination (R2) values of developed LMR models while this range was observed from 0.586 to 0.949 for proposed NLMR models. As a result, both the LMR and NLMR models deliver almost the same predictive performance in estimating the Q for various weathering zones. Nevertheless, in most of the cases, NLMR models can provide higher performance prediction in estimating Q compared to LMR models.
format Article
author Tonnizam Mohamad, E.
Jahed Armaghani, D.
Ghoroqi, M.
Yazdani Bejarbaneh, B.
Ghahremanians, T.
Abd. Majid, M. Z.
Tabrizi, O.
author_facet Tonnizam Mohamad, E.
Jahed Armaghani, D.
Ghoroqi, M.
Yazdani Bejarbaneh, B.
Ghahremanians, T.
Abd. Majid, M. Z.
Tabrizi, O.
author_sort Tonnizam Mohamad, E.
title Ripping production prediction in different weathering zones according to field data
title_short Ripping production prediction in different weathering zones according to field data
title_full Ripping production prediction in different weathering zones according to field data
title_fullStr Ripping production prediction in different weathering zones according to field data
title_full_unstemmed Ripping production prediction in different weathering zones according to field data
title_sort ripping production prediction in different weathering zones according to field data
publisher Springer International Publishing
publishDate 2017
url http://eprints.utm.my/id/eprint/76202/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019140055&doi=10.1007%2fs10706-017-0254-4&partnerID=40&md5=476ef1ac1ebf90fc42da90579e0f5fb9
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score 13.211869