Nuray Tokgöz scite author profile

The Cebeci region is characterized by outcrops of Carboniferous sandstone, including diabase dykes. This region is very important area for aggregate production in Istanbul, Turkey. The aim of this study is to determine the engineering geological properties of sandstones to assess the excavatability, abrasivity and stability of cut slopes in a quarry site. Firstly, the sandstone samples were used to determine their petrographical and mineralogical characteristics. Then, physico-mechanical tests were performed on these samples. In order to determine rock mass properties, scan-line surveys were performed, and the major orientations of discontinuities were analyzed through the stereographic projection technique. Kinematical analyses were also made to determine the potential failures at the quarry site. According to the results obtained, excavatability is changed from easy ripping to hard ripping on sandstones; the carbonated sandstone is less abrasive than other sandstones. Based on the field studies and stability analyses of the cut slopes, optimum slope geometry and necessary support measures, such as wire mesh and rock fall barriers, are suggested.

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A study on the bio-hydro mechanical effects of the tree roots on the Agaclı coal reclaimed – forested land

Tokgöz

2005

Geotech Geol Eng

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The research area that is in the north of Istanbul (Turkey) and it is a land of open pit coal mining residuals reclaimed and turned to forest in [1988][1989]. The materials that are open pit mine spoils are formed by sandy loam, sandy clay loam, heavy loam and clay (noncalcareous Pliocene I sediments). Pseudoacacia (Robinia pseudoacacia), Maritima Pine (Pinus pinaster) and Stone Pine (Pinus pinea) are planted on these materials. The aims of this research were to determine the strength of the material provided by tree roots and evaluate the performance of the forestation practices at lands especially where open pit coal mining spoil (residual) materials piled up. The research has been performed at two stages. The first one was 'hydro-mechanical effect' concerned about material moisture depletion as a result of transpiration and the second one was 'bio-mechanical effects' due to strength parameters of the roots and their growth pattern within the material. All results were evaluated in relation to tensile strength and displacement curves due to pre and post failure behaviors of materials and root systems. The results showed the increase of the displacement of the material was the significant indicator of the bio-mechanics tensile strength of the material provided by the tree roots. The fast growing type of tree roots have stabilized the material up to a depth for 80-100 cm by covering the coal residual materials within 12 years.

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Numerical Analysis of Worldwide CO₂Emissions and Effects on Atmospheric Warming in Turkey

Tokgöz

2010

Energy Sources, Part A: Recovery, Utilization, and Environmenta

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New technical combination of seawater and ultrasound wave energy for excavation of highly plastic sticky clays in urban EPB tunneling

Tokgöz

2020

Bull Eng Geol Environ

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Nuray Tokgöz

An evaluation of fine grained sedimentary materials in terms of geotechnical parameters which define and control excavation performance of EPB TBM’s

Assessment of Excavatability, Abrasivity and Slope Stability in a Sandstone Quarry in Istanbul, Turkey

A study on the bio-hydro mechanical effects of the tree roots on the Agaclı coal reclaimed – forested land

Numerical Analysis of Worldwide CO₂Emissions and Effects on Atmospheric Warming in Turkey

New technical combination of seawater and ultrasound wave energy for excavation of highly plastic sticky clays in urban EPB tunneling

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Nuray Tokgöz

An evaluation of fine grained sedimentary materials in terms of geotechnical parameters which define and control excavation performance of EPB TBM’s

Assessment of Excavatability, Abrasivity and Slope Stability in a Sandstone Quarry in Istanbul, Turkey

A study on the bio-hydro mechanical effects of the tree roots on the Agaclı coal reclaimed – forested land

Numerical Analysis of Worldwide CO2Emissions and Effects on Atmospheric Warming in Turkey

New technical combination of seawater and ultrasound wave energy for excavation of highly plastic sticky clays in urban EPB tunneling

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Product

Resources

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Numerical Analysis of Worldwide CO₂Emissions and Effects on Atmospheric Warming in Turkey