The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
This document summarizes research on surface mining technologies that can be used in zones of tectonic disturbances within the Estonian oil shale deposit. The researchers analyzed the geological conditions and determined the uniaxial compressive strength of rocks using indirect testing methods. A variety of excavation methods were considered, including digging, ripping, blasting, and hydraulic breaking. The researchers proposed feasible mining technologies for different zones based on the rock characteristics and strength parameters. Restrictions related to nearby inhabitation were also taken into account when assessing the appropriate excavation methods.
The document summarizes an engineering geological study of support requirements for a diversion tunnel at the Boztepe dam site in eastern Turkey. Empirical, theoretical, and numerical methods were used to characterize the rock mass and determine support needs. Field studies found the site contained basalt and tuffite units. Laboratory testing provided mechanical properties of intact rock samples. Rock mass quality was evaluated using RMR, Q, and GSI classification systems. Support requirements were proposed and numerically analyzed using the finite element method. A combination of approaches was found to provide a more reliable design.
This project proposal seeks funding to analyze swelling clay near Tribhuvan International Airport (TIA) in Kathmandu and reconstruct a damaged road. The proposal outlines collecting soil samples from within 2-4 meters of the surface, testing the samples to determine soil consistency, clay content, and mineral composition, and reconstructing the road with a safety factor over 1. The total anticipated budget is 250,000 Nepali rupees.
IRJET- Assessment of Slope Stability in Opencast Coal Mines using SoftwareIRJET Journal
This document discusses using FLAC/Slope software to analyze slope stability in an open cast coal mine. It summarizes the software's ability to model different failure mechanisms and assess slope stability through numerical modeling. The study area contains three coal seams within barakar sandstone formations. Geo-mechanical testing of the lithologies was performed to obtain properties like density and shear strength for the slope stability analysis. Parametric studies show slope angle significantly impacts stability, with steeper angles reducing stability.
This document provides information about mining and mineral exploration. It begins with an introduction to mining and the materials recovered through mining such as metals, coal, salt, and diamonds. It then discusses the history of mining from the Stone Age to the Iron Age. Tables show production data for various countries and Philippine reserves of metallic and non-metallic ores. The document also covers topics like prospecting methods, geological guides for prospecting, exploration techniques, and equipment used for exploration such as gravimeters, scintillometers, and seismographs.
The document discusses sandstone uranium deposits found in the Phu Wiang Basin in Thailand. Three small uranium ore lenses were discovered through drilling programs in the 1970s-1980s. The mineralization is low-grade and consists primarily of coffinite dispersed in conglomeratic sandstone layers. Though additional prospecting occurred, the deposits were deemed uneconomic due to small size, low grades, and finely dispersed nature of the uranium minerals. Discoveries of dinosaur fossils during drilling provided benefits to museums, but further exploration found only uneconomic uranium occurrences in the region.
Evaluation on coal resource estimation and drillhole spacing optimizationrudyhendrawan
Evaluation on Coal Resource Estimation and Drillhole Spacing Optimization Based on Geostatistical Approach, with a Case Study on Coal Deposit at South Kalimantan, Indonesia. Mohamad Nur HERIAWAN, Rudy Hendrawan NOOR, SYAFRIZAL, and Sudarto NOTOSISWOYO
1) This document discusses a geotechnical investigation conducted for a proposed ramp down access at the Ciurug Underground Gold Mine in Pongkor, Indonesia.
2) Geological structure mapping and rock core drilling were performed, and the rock mass was found to vary between Rock Mass Rating (RMR) classes II and III, or good to fair rock.
3) Based on the rock mass classification and considering the existing support systems used in the mine, the recommended support includes friction bolts combined with wire mesh, with additional timber or steel sets in poorer conditions. Numerical modeling supported this recommendation.
This document summarizes research on surface mining technologies that can be used in zones of tectonic disturbances within the Estonian oil shale deposit. The researchers analyzed the geological conditions and determined the uniaxial compressive strength of rocks using indirect testing methods. A variety of excavation methods were considered, including digging, ripping, blasting, and hydraulic breaking. The researchers proposed feasible mining technologies for different zones based on the rock characteristics and strength parameters. Restrictions related to nearby inhabitation were also taken into account when assessing the appropriate excavation methods.
The document summarizes an engineering geological study of support requirements for a diversion tunnel at the Boztepe dam site in eastern Turkey. Empirical, theoretical, and numerical methods were used to characterize the rock mass and determine support needs. Field studies found the site contained basalt and tuffite units. Laboratory testing provided mechanical properties of intact rock samples. Rock mass quality was evaluated using RMR, Q, and GSI classification systems. Support requirements were proposed and numerically analyzed using the finite element method. A combination of approaches was found to provide a more reliable design.
This project proposal seeks funding to analyze swelling clay near Tribhuvan International Airport (TIA) in Kathmandu and reconstruct a damaged road. The proposal outlines collecting soil samples from within 2-4 meters of the surface, testing the samples to determine soil consistency, clay content, and mineral composition, and reconstructing the road with a safety factor over 1. The total anticipated budget is 250,000 Nepali rupees.
IRJET- Assessment of Slope Stability in Opencast Coal Mines using SoftwareIRJET Journal
This document discusses using FLAC/Slope software to analyze slope stability in an open cast coal mine. It summarizes the software's ability to model different failure mechanisms and assess slope stability through numerical modeling. The study area contains three coal seams within barakar sandstone formations. Geo-mechanical testing of the lithologies was performed to obtain properties like density and shear strength for the slope stability analysis. Parametric studies show slope angle significantly impacts stability, with steeper angles reducing stability.
This document provides information about mining and mineral exploration. It begins with an introduction to mining and the materials recovered through mining such as metals, coal, salt, and diamonds. It then discusses the history of mining from the Stone Age to the Iron Age. Tables show production data for various countries and Philippine reserves of metallic and non-metallic ores. The document also covers topics like prospecting methods, geological guides for prospecting, exploration techniques, and equipment used for exploration such as gravimeters, scintillometers, and seismographs.
The document discusses sandstone uranium deposits found in the Phu Wiang Basin in Thailand. Three small uranium ore lenses were discovered through drilling programs in the 1970s-1980s. The mineralization is low-grade and consists primarily of coffinite dispersed in conglomeratic sandstone layers. Though additional prospecting occurred, the deposits were deemed uneconomic due to small size, low grades, and finely dispersed nature of the uranium minerals. Discoveries of dinosaur fossils during drilling provided benefits to museums, but further exploration found only uneconomic uranium occurrences in the region.
Evaluation on coal resource estimation and drillhole spacing optimizationrudyhendrawan
Evaluation on Coal Resource Estimation and Drillhole Spacing Optimization Based on Geostatistical Approach, with a Case Study on Coal Deposit at South Kalimantan, Indonesia. Mohamad Nur HERIAWAN, Rudy Hendrawan NOOR, SYAFRIZAL, and Sudarto NOTOSISWOYO
1) This document discusses a geotechnical investigation conducted for a proposed ramp down access at the Ciurug Underground Gold Mine in Pongkor, Indonesia.
2) Geological structure mapping and rock core drilling were performed, and the rock mass was found to vary between Rock Mass Rating (RMR) classes II and III, or good to fair rock.
3) Based on the rock mass classification and considering the existing support systems used in the mine, the recommended support includes friction bolts combined with wire mesh, with additional timber or steel sets in poorer conditions. Numerical modeling supported this recommendation.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
IRJET- Laboratory Investigation on the Strength Property of Field Collected C...IRJET Journal
This document presents the results of a laboratory investigation that examined the compressive strength of coal samples collected from the field. Coal samples were subjected to impact loading using a Protodyakonov strength index test apparatus. This involved dropping a hammer onto coal samples from a height of 600 mm a varying number of blows from 5 to 25. The crushed coal was measured to calculate the Protodyakonov strength index (PSI), which was then used to determine the compressive strength of each coal sample. The results found that coal samples had a maximum compressive strength of 0.24 MPa after 25 blows and a minimum of 0.12 MPa after 5 blows. Thus, the number of blows impacted the measured
A Study in Various Techniques, Advances and Issues Used for Rock MassesIJRES Journal
Purpose of this article is to review important parts of rock investigation. However site investigation cost is so less than construction cost but it’s role is vital. In this article firstly, we explain Rock mechanics in field such as Geological observations, drilling of the holes, sampling and in situ testing and secondly we’re going explain about strength index of rock mass, rock mechanics in laboratory. This article consist of important concept of famous rock mechanics books and article and we hope that be effective and practical for rock mechanics engineers.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Stability analysis of overburden internal dump material of amlohri opencast c...Dr. Sachin Sharma
This document summarizes a study on the stability analysis of overburden internal dump material at Amlohri opencast coal mine in India. Shear strength tests were conducted on dump and interface materials to determine parameters. Stability analyses using Fellenius and Bishop's methods were performed for various dump height and slope combinations considering groundwater, seismicity, and coal barriers. Factors of safety between 1.05-1.10 and 1.20 were found to be safe and economical for 80m and 50m high dumps respectively based on a stipulated factor of 1.2. The study provides optimum dump geometry for safe slope design at the mine.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Engineering Characterisation of Aggregates from Some Selected Areas in Kumasi...IJAEMSJORNAL
The document summarizes a study that characterized aggregates from four locations (KP, CS, QC, NM) near major quarries in Kumasi, Ghana. Engineering tests were performed on the aggregates including specific gravity, water absorption, aggregate impact value, aggregate crushing value, ten percent fines value, flakiness index, elongation index, and Los Angeles abrasion value. The results indicated that aggregates from the CS location generally performed best, passing most tests and indicating high strength, good water absorption, and resistance to impacts and loading. The KP location produced aggregates that were hardest and most resistant to crushing and degradation. The study concluded that the CS location was best for obtaining high quality aggregates.
IRJET- Petrographical Significance of Some Geotechnical Parameters of Quartzi...IRJET Journal
This document summarizes a study of the petrography and geotechnical properties of quartzites in the Togo Series in Ghana. Five types of quartzite were identified and analyzed: quartzitic sandstone, chloritic quartzite, sheared quartzite, flaggy quartzite, and recrystallized quartzite. The study found that porosity was highest in sheared quartzite and lowest in quartzitic sandstone. Uniaxial compressive strength was highest in flaggy quartzite and lowest in sheared quartzite. Porosity decreased with increasing quartz content and increasing amounts of platy minerals like chlorite, muscovite, and seric
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
This document summarizes a study of mine blasts at the Aru-Lõuna Limestone Quarry in Estonia using seismology and mining engineering methods. Around 120 blasts are conducted at the quarry annually to produce limestone for cement production, but seismic monitoring stations only detect a few events. The study examined 12 seismic events registered between 2010-2012 that were located as resulting from blasts at the quarry. Factors like explosive type and amount, blast design, and local geology that could influence vibration intensity were investigated. While blast details did not consistently explain detected vs undetected events, improving data sharing between quarry operators and seismologists may help better understand local seismic activity from mining.
This document summarizes a study of mine blasts at the Aru-Lõuna Limestone Quarry in Estonia using seismology and mining engineering methods. Around 120 blasts are conducted at the quarry annually to produce limestone for cement production, but only 12 events were detected by the local seismic network between 2010-2012. The study examined various blasting parameters and geological conditions that could influence seismic wave intensity. Key controllable factors included the explosive quantity, distance from protected structures, explosive type and charge density. Uncontrollable factors included the geological structure and overburden thickness. While blast details were recorded, no clear link was found between blast size and seismic detection. Improved cooperation between quarry
Abstract – The thesis topic is “Blasting parameters, seismic
data analysis and their correlation in Estonia”. The thesis
focuses on blasting related to mining of oil shale and limestone,
as they are the most important mineral resources mined in
Estonia.
This article describes a case study in the framework of the
general research topic, focusing to the Aru-Lõuna (Aru-South)
limestone quarry in the Ida-Virumaa county.
This document summarizes a study of mine blasts at the Aru-Lõuna Limestone Quarry in Estonia using seismology and mining engineering methods. Around 120 blasts are conducted at the quarry annually to produce limestone for cement production, but seismic monitoring stations only detect a few events. The study examined 12 seismic events registered between 2010-2012 that were located as resulting from blasts at the quarry. Factors like explosive type and amount, blast design, and local geology that could influence vibration intensity were investigated. While blast details did not consistently explain detected vs undetected events, improving data sharing between quarry operators and seismologists may help better understand blast impacts and improve operations.
HEAVY EQUIPMENT EFFICIENCY, PRODUCTIVITY AND COMPATIBILITY OF COAL MINE OVERB...IAEME Publication
A mining activity starts with clearing the land from plants and overburden
stripping. The purpose of this study is to analyze the value of work efficiency,
productivity, and compatibility of heavy equipment in overburden work. This research
employs a descriptive method and includes a case study, then the data were obtained
from observations. The research results found that the value of workload efficiency is
74.63% and the value of conveyance is 58.37%; while the productivity of loading
equipment is 5,055 BCM/hour and conveyance is 5,189 BCM/hour; furthermore, the
match factor level of the equipment is 0.65. However, the match factor level is still
below the standard. Thus, further research is required to determine the appropriate
strategy to make the equipment's match factor level equal to one
Drilling efficiency optimization at hassai siteAhmad Elsir
The document discusses optimization of drilling efficiency at a mining site in Sudan. It describes the study area and objectives, which include evaluating drilling rate equations, collecting rock samples, and developing a web-based application for selecting drillers. Sieve analysis and mechanical tests were conducted on samples. Graphs show grain size distribution curves for different boreholes. Tables provide test results on time taken for different grain sizes to pass through a sieve. The document also discusses controllable drilling parameters and components of the drill string that impact efficiency, such as shock absorbers, deck bushings, drill pipes, and bit sub adaptors.
Equipment selection for high selective excavation surface coal miningwybawa
The document discusses equipment selection for high selective excavation of coal seams at the Seyitömer Lignite Enterprise (SLE) in Turkey. SLE extracts lignite coal from opencast mines to supply a nearby power plant. The B3 coal seam contains thin ash bands that reduce coal quality when excavated. Two potential high selective excavation methods were identified - hydraulic excavator and truck, and surface miner and truck. The research aimed to select equipment that could extract the coal seam separately from the ash bands to improve quality. Hydraulic excavators and surface miners were found to have the necessary high selectivity and productivity for the task. Surface mining with selective excavation was estimated to improve coal quality by 52% lower
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
The document summarizes research on a blast hole slotting system that aims to reduce coal loss and dilution during coal mining blasts. A field trial at a mine site demonstrated that blast holes slotted with the system had 58% less fragmentation below the blast hole toe compared to unslotted holes. This indicates the slots help direct fractures radially and protect the underlying coal seam. Further testing is still needed to directly quantify the system's ability to reduce coal loss in cast blasting situations. The research provides promising results that the slotting technology could improve coal recovery while maintaining fragmentation in open cut coal mining.
IRJET - Enhancing Productivity in Opencast Mines – A Quantified ApproachIRJET Journal
This document discusses enhancing productivity in opencast mines through improved rock fragmentation from blasting. It begins by defining rock fragmentation and describing how the size distribution of blasted rock fragments affects operations downstream like loading, hauling, and crushing. Optimal fragmentation minimizes oversize rocks while avoiding too many fines.
The document then examines the factors that influence rock fragmentation from blasting, including properties of the rock mass and explosive as well as blast design parameters like drilling pattern, charge weight, and delay timing. It discusses how fragmentation is assessed through metrics like mean fragment size and shovel performance. Finally, it stresses that the blasted rock profile and fragment sizes must complement the loading and hauling equipment used in the mine to maximize productivity
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
IRJET- Laboratory Investigation on the Strength Property of Field Collected C...IRJET Journal
This document presents the results of a laboratory investigation that examined the compressive strength of coal samples collected from the field. Coal samples were subjected to impact loading using a Protodyakonov strength index test apparatus. This involved dropping a hammer onto coal samples from a height of 600 mm a varying number of blows from 5 to 25. The crushed coal was measured to calculate the Protodyakonov strength index (PSI), which was then used to determine the compressive strength of each coal sample. The results found that coal samples had a maximum compressive strength of 0.24 MPa after 25 blows and a minimum of 0.12 MPa after 5 blows. Thus, the number of blows impacted the measured
A Study in Various Techniques, Advances and Issues Used for Rock MassesIJRES Journal
Purpose of this article is to review important parts of rock investigation. However site investigation cost is so less than construction cost but it’s role is vital. In this article firstly, we explain Rock mechanics in field such as Geological observations, drilling of the holes, sampling and in situ testing and secondly we’re going explain about strength index of rock mass, rock mechanics in laboratory. This article consist of important concept of famous rock mechanics books and article and we hope that be effective and practical for rock mechanics engineers.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Stability analysis of overburden internal dump material of amlohri opencast c...Dr. Sachin Sharma
This document summarizes a study on the stability analysis of overburden internal dump material at Amlohri opencast coal mine in India. Shear strength tests were conducted on dump and interface materials to determine parameters. Stability analyses using Fellenius and Bishop's methods were performed for various dump height and slope combinations considering groundwater, seismicity, and coal barriers. Factors of safety between 1.05-1.10 and 1.20 were found to be safe and economical for 80m and 50m high dumps respectively based on a stipulated factor of 1.2. The study provides optimum dump geometry for safe slope design at the mine.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Engineering Characterisation of Aggregates from Some Selected Areas in Kumasi...IJAEMSJORNAL
The document summarizes a study that characterized aggregates from four locations (KP, CS, QC, NM) near major quarries in Kumasi, Ghana. Engineering tests were performed on the aggregates including specific gravity, water absorption, aggregate impact value, aggregate crushing value, ten percent fines value, flakiness index, elongation index, and Los Angeles abrasion value. The results indicated that aggregates from the CS location generally performed best, passing most tests and indicating high strength, good water absorption, and resistance to impacts and loading. The KP location produced aggregates that were hardest and most resistant to crushing and degradation. The study concluded that the CS location was best for obtaining high quality aggregates.
IRJET- Petrographical Significance of Some Geotechnical Parameters of Quartzi...IRJET Journal
This document summarizes a study of the petrography and geotechnical properties of quartzites in the Togo Series in Ghana. Five types of quartzite were identified and analyzed: quartzitic sandstone, chloritic quartzite, sheared quartzite, flaggy quartzite, and recrystallized quartzite. The study found that porosity was highest in sheared quartzite and lowest in quartzitic sandstone. Uniaxial compressive strength was highest in flaggy quartzite and lowest in sheared quartzite. Porosity decreased with increasing quartz content and increasing amounts of platy minerals like chlorite, muscovite, and seric
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
This document summarizes a study of mine blasts at the Aru-Lõuna Limestone Quarry in Estonia using seismology and mining engineering methods. Around 120 blasts are conducted at the quarry annually to produce limestone for cement production, but seismic monitoring stations only detect a few events. The study examined 12 seismic events registered between 2010-2012 that were located as resulting from blasts at the quarry. Factors like explosive type and amount, blast design, and local geology that could influence vibration intensity were investigated. While blast details did not consistently explain detected vs undetected events, improving data sharing between quarry operators and seismologists may help better understand local seismic activity from mining.
This document summarizes a study of mine blasts at the Aru-Lõuna Limestone Quarry in Estonia using seismology and mining engineering methods. Around 120 blasts are conducted at the quarry annually to produce limestone for cement production, but only 12 events were detected by the local seismic network between 2010-2012. The study examined various blasting parameters and geological conditions that could influence seismic wave intensity. Key controllable factors included the explosive quantity, distance from protected structures, explosive type and charge density. Uncontrollable factors included the geological structure and overburden thickness. While blast details were recorded, no clear link was found between blast size and seismic detection. Improved cooperation between quarry
Abstract – The thesis topic is “Blasting parameters, seismic
data analysis and their correlation in Estonia”. The thesis
focuses on blasting related to mining of oil shale and limestone,
as they are the most important mineral resources mined in
Estonia.
This article describes a case study in the framework of the
general research topic, focusing to the Aru-Lõuna (Aru-South)
limestone quarry in the Ida-Virumaa county.
This document summarizes a study of mine blasts at the Aru-Lõuna Limestone Quarry in Estonia using seismology and mining engineering methods. Around 120 blasts are conducted at the quarry annually to produce limestone for cement production, but seismic monitoring stations only detect a few events. The study examined 12 seismic events registered between 2010-2012 that were located as resulting from blasts at the quarry. Factors like explosive type and amount, blast design, and local geology that could influence vibration intensity were investigated. While blast details did not consistently explain detected vs undetected events, improving data sharing between quarry operators and seismologists may help better understand blast impacts and improve operations.
HEAVY EQUIPMENT EFFICIENCY, PRODUCTIVITY AND COMPATIBILITY OF COAL MINE OVERB...IAEME Publication
A mining activity starts with clearing the land from plants and overburden
stripping. The purpose of this study is to analyze the value of work efficiency,
productivity, and compatibility of heavy equipment in overburden work. This research
employs a descriptive method and includes a case study, then the data were obtained
from observations. The research results found that the value of workload efficiency is
74.63% and the value of conveyance is 58.37%; while the productivity of loading
equipment is 5,055 BCM/hour and conveyance is 5,189 BCM/hour; furthermore, the
match factor level of the equipment is 0.65. However, the match factor level is still
below the standard. Thus, further research is required to determine the appropriate
strategy to make the equipment's match factor level equal to one
Drilling efficiency optimization at hassai siteAhmad Elsir
The document discusses optimization of drilling efficiency at a mining site in Sudan. It describes the study area and objectives, which include evaluating drilling rate equations, collecting rock samples, and developing a web-based application for selecting drillers. Sieve analysis and mechanical tests were conducted on samples. Graphs show grain size distribution curves for different boreholes. Tables provide test results on time taken for different grain sizes to pass through a sieve. The document also discusses controllable drilling parameters and components of the drill string that impact efficiency, such as shock absorbers, deck bushings, drill pipes, and bit sub adaptors.
Equipment selection for high selective excavation surface coal miningwybawa
The document discusses equipment selection for high selective excavation of coal seams at the Seyitömer Lignite Enterprise (SLE) in Turkey. SLE extracts lignite coal from opencast mines to supply a nearby power plant. The B3 coal seam contains thin ash bands that reduce coal quality when excavated. Two potential high selective excavation methods were identified - hydraulic excavator and truck, and surface miner and truck. The research aimed to select equipment that could extract the coal seam separately from the ash bands to improve quality. Hydraulic excavators and surface miners were found to have the necessary high selectivity and productivity for the task. Surface mining with selective excavation was estimated to improve coal quality by 52% lower
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology.
The document summarizes research on a blast hole slotting system that aims to reduce coal loss and dilution during coal mining blasts. A field trial at a mine site demonstrated that blast holes slotted with the system had 58% less fragmentation below the blast hole toe compared to unslotted holes. This indicates the slots help direct fractures radially and protect the underlying coal seam. Further testing is still needed to directly quantify the system's ability to reduce coal loss in cast blasting situations. The research provides promising results that the slotting technology could improve coal recovery while maintaining fragmentation in open cut coal mining.
IRJET - Enhancing Productivity in Opencast Mines – A Quantified ApproachIRJET Journal
This document discusses enhancing productivity in opencast mines through improved rock fragmentation from blasting. It begins by defining rock fragmentation and describing how the size distribution of blasted rock fragments affects operations downstream like loading, hauling, and crushing. Optimal fragmentation minimizes oversize rocks while avoiding too many fines.
The document then examines the factors that influence rock fragmentation from blasting, including properties of the rock mass and explosive as well as blast design parameters like drilling pattern, charge weight, and delay timing. It discusses how fragmentation is assessed through metrics like mean fragment size and shovel performance. Finally, it stresses that the blasted rock profile and fragment sizes must complement the loading and hauling equipment used in the mine to maximize productivity
IRJET - Enhancing Productivity in Opencast Mines – A Quantified Approach
I032030075081
1. The International Journal Of Engineering And Science (IJES)
||Volume|| 3 ||Issue|| 2 ||Pages|| 75 - 81 || 2014 ||
ISSN (e): 2319 – 1813 ISSN (p): 2319 – 1805
The Suitability of Some Selected Granite Deposits for Aggregate
Stone Production in Road Construction
1
Jethro, Michael Adebola, 2 Shehu, Shaib Abdulazeez
3
Olaleye, B.M.
1&2
3
Department of Mineral Resources Engineering, Kogi State Polytechnic, Lokoja, Nigeria
Department of Mining Engineering, the Federal University of Technology, Akure Ondo State, Nigeria
--------------------------------------------------------ABSTRACT-------------------------------------------------The investigation of the suitability of some selected granite deposits for aggregate stone production within the
basement complex of Nigeria for road construction was studied. Aggregate samples obtained from the deposits
were analyzed in the laboratory to determine their mechanical properties (aggregate crushing value and
aggregate impact value). It was found out that the granite deposits possess certain desirable aesthetic and
visual characteristic. Also, the percentage mineralogical compositions of the studied samples were examined.
The results show that Beautiful Rock Company has the highest percentage composition of microcline content
which reduces the rate of wearing and tearing. The results of the laboratory analyses on the aggregate sample
indicated that the technical features of the deposit are suitable for aggregate stone for road construction when
compared with the globally accepted standard. The result of the investigation will be useful and serve as
database to prospective investors in aggregate stone quarrying.
Keywords: Suitability, Deposit, Aggregate, Basement complex, Aggregate crushing value, Aggregate impact
value, Microcline.
--------------------------------------------------------------------------------------------------------------------------------------Date of Submission: 01 November 2013
Date of Acceptance: 20 February 2014
--------------------------------------------------------------------------------------------------------------------------------------I.
INTRODUCTION
Blasting operation, a major component of rock fragmentation, is a technique that is based on scientific
principles derive from knowledge of action of explosives, mechanisms of fragmentation and the mechanical
properties of rocks [1]. Therefore, it is imperatives to study and determine the mechanical properties of granite
rock before carrying out the blasting operation. In order to achieve good and effective mine planning,
development, design, equipment selection mechanism, type of explosive that is suitable for maximum output,
the mechanical properties of granite rock have to be determined [2]. Well planned blasting operation will yield
good fragmentation which is the result or outcome of the blasting operation fragmentation process is extremely
important both economical and technical in mining and construction industry and its influence by various
granites rock properties [3].
Moreover, many factors may affect blasting behaviour besides the characteristics of rock. It is very
difficult and even impossible to control the entire factors, which could affect the behaviour of rock undergoing
detonation. Dimitry and Evgeny [3] posited that blasting have some connections with geology or rock
properties. The explosive energy level and distribution must be matched with geological conditions in order for
rock fragmentation to be successful. The understanding of the geology of the area to be blasted will influence
blasting design based on observation of fragments distribution.
In addition, experimental analysis such as crushing value, impact value, Abrasive resistance, Hardness
and mineralogical characteristics of rock can dictate a load or energy that can be absorbed before failure of rock
mass could occur [3].
Rock fragmentation can be described as the extent to which rock is broken into pieces by blasting or
any other means. The geological factors that affect rock fragmentation are variable and non controllable, but
with good engineering judgment, values can be placed on them to achieve the desire fragmentation. Explosives
also played a major role in blasting operation for effective fragmentation and displacement of rock from in-situ
position [4].
1.1 Locations of the Study Areas
The five deposits investigated are within Lokoja and Okene in Kogi State, North Central Nigeria. The
coordinates of the areas are given in Table 1.
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2. The Suitability of Some Selected Granite Deposits for Aggregate…
Table 1: Location of the Study Areas
S/N
1
2
3
4
5
Name of Company
Borini Prono (Bp) Nig.
Ltd.
Bulletine Construction
Company (Bt)
Gitto Construction
Company (Gt)
Beautiful Rock Quarry
(Br)
Rock Bridge Quarry (Rb)
Description
59km along Lokoja – Okene Highway,
Okene.
Along Okene – Lokoja Highway, Felele,
Lokoja.
Opposite Bulletine Construction Company,
Felele, Lokoja.
Plot 626, Ganaja Street, along Ajaokuta Lokoja Road, Lokoja.
Plot 626, Ganaja Street, along Ajaokuta Lokoja Road, Lokoja.
Co-ordinate:
Latitude
Longitude
060 161 4511
070 371 3011
060 441 1511
070 491 5411
060 441 1711
070 421 1511
060 441 1511
070 421 1511
060 431 0011
070 401 3011
1.2 Geology of the Study Area
Generally, Kogi State has two geological formations; Basement complex and Sedimentary basin.
Approximately, half of the state is covered by crystalline basement complex while the other half is covered by
cretaceous to recent sediments [5].
Nigerian basement and ancient hard rocks predominantly underline the western flank of the state. They
are made up of crystalline complex rock (gneiss and Migmatite) older metasediment (quartzite, marble calcsilicate and the pan Africa granites/older granites). The eastern flank of the state is on the alluvium (youngest
and most recent sedimentary rocks) and other sedimentary rocks, which form part of cretaceous to recent
sediments of Nigeria The crystalline complex contained economic minerals such as Iron-ore, gen-stone, quartz,
feldspar and other associated minerals while the Pan Africa granite/older granite contained cassiterite, tantalite,
columbite, gemstones and other associate minerals. [5].
According to Caen-Vachette Ekwueme [6], the migmataite and gneiss in the Lokoja – Okene area are
Eburnean (+2500 ma) and Kibaran (+1000 ma), while the granite, pegmatite and quartz veins are Pan African
(550+ 100 ma) in age.
Figure 1 is a Geological Map of Nigeria showing the study areas – Lokoja and Okene.
II.
METHODOLOGY
Aggregate stones from five selected quarries – Borini Prono (Bp), Bulletine Construction Company
(Bt), Gitto Construction Company (Gt), Beautiful Rock (Br) and Rock Bridge were tested for Aggregate
Crushing Value (ACV), Aggregate Impact Value (AIV) and Petrographic Analysis. The ISRM [7] and Verwaal
and Mulder [8] standards were followed.
2.1 Aggregate Crushing Value
The materials for the test consist of aggregates passing 14.0mm sieve and retained on a 10.0mm sieve.
The samples were surfaced dried by heating to 1000C for three hours and allowed to cool to room temperature
before testing. The depth of the material was ensured to be 100mm after tamping.
The cylindrical measure was filled in three layers of approximately equal depth, each layer being
tamped 25 times from a height of approximately 50mm.
The cylinder of the test apparatus was put on the base plate and test sample added in thirds, each third
being subjected to 25 strokes from the tamping rod distributed evenly over the surface of the layer and dropping
from a height approximately 50mm above the surface of the aggregate. The surface of the aggregate was
carefully leveled and the plunger inserted so that it rests horizontally on this surface, taking care to ensure that
the plunger does not jam in the cylinder.
The apparatus with the test sample and plunger were placed in position between the platens of the
testing machine and loaded at a uniform rate and the required force of 400kN reached in 10 min.
The load was released and the crushed material removed by holding the cylinder over a clean tray and
hammering on the outside with a suitable rubber mallet until the sample particles are sufficiently disturbed to
enable the mass of the sample to fall freely on to the tray. Fine particles adhering to the inside of the cylinder
were transferred to the base plate and the underside of the plunger to the tray by means of a stiff bristle brush.
The whole of the sample on the tray was sieved on a 2.36mm sieve until no further significant amount passes in
1 min. The fraction passing the sieve was weighed and recorded as B.
Repeat the whole procedure, starting from testing, using a second sample of the mass as the first
sample.
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3. The Suitability of Some Selected Granite Deposits for Aggregate…
Calculations
The ratio of the mass of fines formed to the total mass of the sample in each test was expressed as a
percentage; the result was recorded to the first decimal place as shown in Equation 1.
Percentage
fines
B
100 .......... .......... .......... .......... .......... .......... .......... ..( 1 )
A
where
A is the mass of surface-dry sample (g)
B is the mass of the fraction passing the 2.36 mm sieve (g)
2.2 Aggregate Impact Value, AIV Test
The materials for the test also consist of aggregate passing a 14.0mm sieve and retained on a 10.0mm
sieve. The sample was surfaced dried by heating to 1000C for 3 hours and cooled to room temperature before
testing.
The measure cup was filled for about one third by means of a scoop. The aggregate was discharged
from a height of 40mm above the top of the cup. The aggregate was tamped with 25 blows of the rounded end of
the tamping rod, each blow being given by allowing the tamping rod to fall freely from a height of about 50mm
above the surface of the aggregate and the blows being evenly distributed over the surface.
A similar quantity of aggregate was added in the same manner and tamped with 25 blows.
The measure cup was completely filled and tamped 25 times. The tamping rod was removed by rolling across
and in contact with the top of the container, any aggregate which impedes its progress. Aggregate was added to
fill any obvious depressions.
The mass of aggregate in the measure cup was weighed as Mass A.
The aggregate was put in the test cup. The cup was fixed firmly in position on the base of the machine
and the whole of the test sample placed in it and compact by a single tamping of 25 strokes of the tamping rod
as above. Test sample was subjected to a total of 15 blows from the aggregate impact test machine, each being
delivered at an interval of not less than 1 second.
Crushed aggregate was removed by holding the cup over a clean tray and hammering on the outside with
a suitable rubber mallet until the sample particles are sufficiently disturbed to enable the mass of the sample to
fall freely on to the tray. Fine particles adhering to the inside of the cup were transferred and the underside of
the hammer to the tray by means of a stiff bristly brush.
The whole of the sample in the tray was sieved on the 2.36mm BS test sieve until no further significant
amount passes in 1min.
Fractions passing and retained on the sieve were weighed to an accuracy of 0.1g as (mass B and mass C
respectively). Where the total mass B + C is less than the initial mass (mass A) by more than 1g, the result is
discarded and a fresh test made.
The whole procedure is repeated starting from testing using a second sample of the same mass as the
first sample.
2.3 Mineralogical Characteristics of the Selected Deposits – Modal Analysis
Modal analysis is the method of determining the petrography of rocks by counting the different
minerals thereby determining the mineralogical composition and the percentage of crystal formation of various
minerals present in the samples of each rock type.
According to Jethro [1], “Percentage Mineral Composition” can be calculated using Equation 2
Cm
Tm
100 .......... .......... .......... .......... .......... .......... .......... .......... ......( 2 )
T tm
where Cm
= Percentage mineral composition (%) ;Tm = Total number of count for a mineral
and Ttm = Total number of count for the entire mineral
III.
RESULT
The results of aggregate crushing value, aggregate impact value and minerals composition of the
various locations are presented in Tables 2, 3 and 4
Plates 1 to 5 and Figure 1 shows the results of the photomicrographs and the modal composition of the various
locations examined in this work.
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4. The Suitability of Some Selected Granite Deposits for Aggregate…
Table 2: Aggregate Crushing Value Test Results
PARAMETERS
Weight of aggregate dry sample (g)
Weight of fraction passing separating sieve
(ACV)%
Bp
3463.4
574.9
16.6
LOCATIONS
Bt
Gt
3667.4
3565.2
1037.9
1055.3
28.3
29.6
Br
3502.3
924.6
26.4
Rb
3558.2
935.8
26.3
Table 3: Aggregate Impact Value Test Results
PARAMETERS
Weight of aggregate dry sample (g)
Weight of fraction passing separating sieve
(AIV)%
Sample Locations
Bp
Bt
Gt
Br
Rb
Q (%)
31.9
28.6
19.23
27.08
28.3
Bp
328.9
46.7
14.2
Bt
352.7
72.7
20.6
LOCATIONS
Gt
352.7
73.4
20.8
Table 4: Mineral Composition of the Rocks Tested
P(%)
B (%)
M (%)
H (%)
AM (%)
8.5
12.8
21.3
19.14
4.25
10.7
16.07
21.43
19.6
3.57
13.46
11.54
26.92
23.08
3.85
12.50
10.42
31.25
19.6
4.17
15.0
10.0
20.0
21.67
3.33
Br
360.2
69.5
19.3
Rb
355.4
68.4
19.2
OM (%)
2.19
0.00
1.92
0.00
1.67
A (%)
14.58
-
Q – Quartz; P – Plagioclase; B – Biotite; M – Microcline, A- Amphibole; H – Hornblende, AM- Accessories
mineral and OM – opaque mineral.
a
b
Plate 1: (a) Photomicrograph of Bp with (b) Crossed Nicols: mag. x 40
Plate 4.1a Bp crossed Nicols
Plate 4.1b Bp plane polarized light
b
a
Plate 2: (a) Photomicrograph of Bt with (b) Crossed Nicols: mag. x 40
Plate 4.2a Bt crossed Nicols
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Plate 4.2b Bt plane polarized Light
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5. The Suitability of Some Selected Granite Deposits for Aggregate…
b
a
Plate 4: (a) Photomicrograph of Br with (b) Crossed Nicols: mag. x 40
Plate 4.4a Br crossed Nicols.
Plate 4.4b Br plane polarized Light.
a
b
Plate 5: (a) Photomicrograph of Rb with (b) Crossed Nicols: mag. x 40
Plate 4.5a Rb crossed Nicols.
Plate 4.5b Br plane polarized Light.
a
b
Plate 3: (a) Photomicrograph of Gt with (b) Crossed Nicols: mag. x 40
Plate 4.3a Gt crossed Nicols.
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Plate 4.3b Gt plane polarized Light .
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6. The Suitability of Some Selected Granite Deposits for Aggregate…
Composition
100
_
KEY
90 _
Amphibole
_
Opague
80 _
Accessories mineral
Hornblende
_
Biotite
70
_
Microcline
Plagioclase
_
60
Quartz
_
_
50
Locations
Bp
Bt
Gt
Br
Rb
40
Figure1: Modal Composition of Rocks Studied as Determined by Analysis of Thin Sections
IV.
DISCUSSION
4.1 Analysis of Strength Properties
The principal mechanical properties required in road stones are (i) satisfactory resistance to crushing
under the roller during construction and (ii) adequate resistance to surface abrasion under traffic - Verwaal and
30
Mulder [8]. Also, surface stresses under rigid tyre rims of heavily loaded vehicles are high enough to consider
the crushing strength of road aggregate as an essential requirement in Nigeria.
Aggregate used in road construction, should be strong enough to resist crushing under traffic wheels
loads if the aggregate are weak, the stability of pavement structure is likely to be adversely effected. The
aggregate crushing value provides a relative measure of resistance to crushing under a gradually applied
compressive load [9]. In order to achieve a high quality of pavement, aggregate possessing low aggregate
20
crushing value should be preferred.
IRC [9] suggested standard Aggregate Crushing Value of 23 – 30% for granites in road construction.
Table 2 shows the aggregate crushing value of location Bp, Bt, Gt, Br and Rb with their values of 16.6, 28.3,
29.6, 26.4 and 26.3 respectively. Therefore, all the locations are suitable for road construction except Bp which
is below the recommended standard despite its high quartz contents. It is advisable that when this aggregate
(Bp) is used in road construction, more asphaltic bituminous should be used.
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7. The Suitability of Some Selected Granite Deposits for Aggregate…
Toughness is the property of a material to resist impact. Due to traffic loads, the roads stoned are
subjected to the pounding action or impact and there is possibility of stones breaking into smaller pieces. The
road stones should therefore be tough enough to resist fracture under impact.
IRC [9] suggested standard Aggregate Impact Value of 17 – 21% for granites in road construction. The
Aggregate Impact Values of 20.8, 20.6, 19.3 and 19.2 obtained for locations Gt, Bt, Br and Rb respectively
(Table 3) are therefore suitable for road construction and other engineering work. The results indicate that Gt,
Bt, Br and Rb are very good for road construction unlike Bp (4.2%) which is below the recommended standard.
4.2 Analysis of the Petrographic Characteristics
Quartz, microcline, hornblende, plagioclase and biotite are the main minerals in all the tested samples
(Table 4). From the results, it can be concluded that Br has the highest percentage composition of microcline
content of 31.25% as compared to Rb which is 20%. Thus Br has the highest strength value.
Plates 1 to 5 and figure 1 show the variation of the various mineral constituents and Gt contain the
highest percentage of hornblende which adds to the high strength value as a result of the microcline and quartz
content as shown in the modal composition. The slides were studied using the polarizing microscope and the
exact percentage of each mineral composition is calculated. In location Bp, the texture ranges from fine to
medium, coarse grained possessing gray colour and it forms varies from anhedral to subhedral. In location Bt,
the texture is coarse grained, gray in colour and the form range from subhedral to anhedral. In location Gt, the
texture is from fine to medium, the coarse is gray and form from anhedral to subhedal. In location Br, the texture
is fine to medium grained and the colour is with a form of anhedral to subhedral. In location Rb, the texture is
fine to medium and the colour is gray ranges from anhedral to subhedral. Since the texture of Br in fine to
medium, this also confirmed the hardness of the rock as shown in result of aggregate crushing and aggregate
impact values.
All the five deposits have the same texture and colour but slightly different forms despite the fact that they
are gotten from close locations within the Kogi State – Lokoja and Okene.
V.
CONCLUSION
The result of the investigation shows that the value of all the parameters determine on Bt, Gt, Br. And
Rb location of granite deposit fall within the specified ranges of the globally accepted ISRM standard of
aggregate stone production for road construction. The value of the crushing test results and impact test results
depicts good quality and high durability of the expected product from the deposits. Consequently, granite
aggregates from the studied locations are suitable for road construction, construction of ditching and building
etc.
Exclusively, location Bp which has the aggregate crushing value of 16.6, and aggregate impact value of
14.2 that cannot be use for road construction but durable for other engineering work. The preparation and study
of thin section of the rock samples by modal analysis shows that they comprise of the following minerals:
plagioclase, quarts, Biotite, microcline, Hornblendes and accessories minerals. This indicates that the expected
product from the deposits could freely gain entrance into, and attract interest in both local and international
markets.
VI. RECOMMENDATION
More experimental works are recommended to be done on all granite quarry locations to ascertain their
suitability in road construction.
REFERENCES
[1]
[2]
[3]
[4]
[5]
[6]
[7]
[8]
[9]
Jethro M. A, (2011): Correlation of some petrographic characteristic with strength properties of granite rocks Ekiti and Ondo States,
Nigeria. M. Engr. Thesis, Federal University of Technology, Akure. Unpublished P 81
Ajibade, A.C., Woakes, M. and Rahaman, M.A. (1989), In: C.A Kogbe (ed.) Geology of Nigeria, 2nd Revised Edition, Rock View
(Nigeria) Limited, Zaramanganda, Jos Nigeria, pp. 57 – 69.
Dimitry, K. and Evgeny, N. (2005): Influence of blasting parameter on granitic rocks, division of rock mechanics, Iulea University of
Technology, Iulea Sweden. pp 25 – 33
Adebayo, B and Umeh, E. C. (2007): Influence of some rock properties on blasting performance, J. Eng. Applied Sci, 2 (1) pp 41 –
44.
Kogi State Ministry of Solid Minerals Development (Now Ministry of Special Duties) (2005), Kogi State minerals investment
prospects, p.49.
Caen-Vachette, M. and Ekwueme, B.N (1988), Petrogenesis of Schists in south east lokoja, Central Nigeria. Global Journal of
Geological Sciences, Vol 1 No. 1, 2003: pp. 29 – 42
ISRM (1981): Suggested methods for Rock characterization, testing and monitoring ISRM Commission on testing methods, E. T.
Brown Edition. Pergamon Press Oxford 211p.
Verwaal, W. and Mulder, A. (2000): Rock and aggregate tests procedures, Geotechnical Laboratory DGM, Thimphu Bhutan, 75 p.
IRC, (1970): Standard Specification and Code of Practice for Construction of Concrete roads, (10) Indian Road Congress.
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