Necati Ataberk scite author profile

Necati Ataberk

5Publications

32Citation Statements Received

49Citation Statements Given

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101

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Necmettin Erbakan University, Selçuk University

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Friction and wear properties of friction materials containing nano/micro-sized SiO₂ particles

Sugozu

Dağhan

Akdemir

et al. 2016

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Purpose – Among the components used for a car brake lining, the chemical and structural properties of the abrasives, jointly with the morphology and size of the particles influence the friction parameters and stability of the composite. This paper aims to investigate the effect of nano SiO2 particles in brake pads on friction and wear properties. Design/methodology/approach – In this paper, the effects of SiO2 (Silica) particles of varying size on the friction-wear properties of polymeric friction composites are investigated. Four friction composites were prepared containing (5, 10 Wt.%) micro silica (MS) particles and (5, 10 Wt.%) nano silica (NS) particles. The samples were produced by a conventional procedure for a dry formulation following dry-mixing, pre-forming and hot pressing. Friction and wear characteristics of the specimens against to a disk made of cast iron were studied. Friction coefficient, specific wear rate and hardness of specimens were obtained. Detailed examinations on the worn surface were analyzed using a scanning electron microscope. Findings – The results of test showed that the inclusion of nano silicon carbide (SiC) powder improved the wear performance significantly. Friction coefficient (μ) of NS samples was higher than the MS samples. Micro-SiC showed poor performance and μ. High wear performance was exhibited in materials containing 5 Wt.% NS and 10 Wt.% NS. Originality/value – This paper emphasizes the importance of nano-composites in the automotive industry and helps to industrial firms and academicians working on wear of materials.

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Improving electrical and mechanical properties of a conductive nano adhesive

Ekrem

Ataberk

Avcı

et al. 2016

Journal of Adhesion Science and Technology

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An experimental evaluation on the dynamic response of water aged composite/aluminium adhesive joints: Influence of electrospun nanofibers interleaving

Ulus

Kaybal

Berber

et al. 2022

Composite Structures

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Elasto-plastic Stress Analysis of Aluminum Metal–Matrix Composite Plate Under In-plane Loading

Ataberk

Uyaner

Avcı

et al. 2004

Journal of Reinforced Plastics and Composites

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Composite structure consisting of stainless steel fiber and aluminum matrix is manufactured by hot-press molding. The mechanical properties were determined experimentally. The effect of orientation angle is investigated under in-plane loading. An elastic-plastic numerical solution has been carried out by finite element method (FEM). The expansion of plastic zones has been illustrated in figures.KEY WORDS: elasto-plastic stress, metal-matrix composite, finite element analysis.

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Fatigue crack growth behaviour in ferritic ductile iron with surface crack under reverse bending

Akdemir

Tekeli

Ataberk

2007

Computational Materials Science

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Necati Ataberk

Friction and wear properties of friction materials containing nano/micro-sized SiO₂ particles

Improving electrical and mechanical properties of a conductive nano adhesive

An experimental evaluation on the dynamic response of water aged composite/aluminium adhesive joints: Influence of electrospun nanofibers interleaving

Elasto-plastic Stress Analysis of Aluminum Metal–Matrix Composite Plate Under In-plane Loading

Fatigue crack growth behaviour in ferritic ductile iron with surface crack under reverse bending

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Necati Ataberk

Friction and wear properties of friction materials containing nano/micro-sized SiO2 particles

Improving electrical and mechanical properties of a conductive nano adhesive

An experimental evaluation on the dynamic response of water aged composite/aluminium adhesive joints: Influence of electrospun nanofibers interleaving

Elasto-plastic Stress Analysis of Aluminum Metal–Matrix Composite Plate Under In-plane Loading

Fatigue crack growth behaviour in ferritic ductile iron with surface crack under reverse bending

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Friction and wear properties of friction materials containing nano/micro-sized SiO₂ particles