Ahmet Burçin BatıbayNecmettin Erbakan Üniversitesi · Metallurgical and Materials Engineering
Ahmet Burçin Batıbay
Doctor of Philosophy
About
29
Publications
913
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7
Citations
Citations since 2017
Introduction
Ahmet Burçin Batıbay currently works at Necmettin Erbakan University Metallurgical and Materials Engineering and Science Technology Research and Application Center. Ahmet does research in Bioengineering and Materials Engineering.
Additional affiliations
September 2015 - present
Position
- Laboratory Supervisor
Description
- Carry out the research and application activities and also operate characterization equipment.
March 2014 - present
Position
- Research Assistant
Description
- Research Assistant at Department of Metallurgical and Materials Engineering
Education
February 2011 - June 2013
September 2007 - July 2010
Publications
Publications (29)
In this study, a Ti-22Al-25Nb alloy with nanocrystalline structure was produced by high energy mechanical alloying (HEMA) and 1 at.-% yttrium was added as a thermal stabilizer. The as-milled samples were annealed at various temperatures up to 900 °C in a protective gas atmosphere, and the samples were allowed to cool to room temperature in the furn...
In this study, 10% Nb and 10Sn additions of titanium were produced by mechanical alloying technique at different times up to 30 hours and sintered for 2 hours at 1000 °C after the powder were pressed. Obtained samples were examined by X-ray diffraction experiments (XRD), scanning electron microscopy (SEM), hardness, density and ultrasonic tests to...
Nickel - titanium based alloys are widely used as a root canal files in dental canal treatment in endodontics. According to the Turkish Ministry of Health, approximately, two million root canal treatments were applied yearly in Turkey. Ni-Ti rotary files have been used for 80 % of these endodontic root canal treatments. Rotary files contain 55-60 w...
Fe89.5Ni8Zr2.5 alloy was synthesized by mechanical alloying followed by pressureless sintering at various temperatures up to 900 °C. Microstructural evolution as a function of processing temperature was characterized using focused ion beam microscopy, transmission electron microscopy and X-ray diffraction techniques. The dependence of hardness on t...
Particle Size Analysis by Image Segmentation Methods
Biocompatible Titanium Alloys
TiNb alloys producing by mechanical alloying
Production of Ti24Nb alloy with the addition of Ta and Sn. Investigation effects of Ta and Sn on Ti24Nb alloy.
Titanium based alloys for advance biomedical applications
Due to their flexibility, strength and bio-compatibility Nickel-Titanium (Ni-Ti) superalloys are widely used for dental canal treatment. High technology melting processes such as Vacuum Arc Melting (VAM), Electron Beam Melting (EBM) are traditionally used for Ni-Ti super alloys. With these methods, small amount of Ni-Ti alloys recovery are expensiv...
Metallic additives such as nickel and cobalt were found to improve the properties of alumina for the use of defense industry.
Investigation of nanocrystalline stainless steels
Thermal stability and phase transformation of nanocrystalline stainless steels
Titanium based alloys have been widely used in many applications, ranging from aerospace engineering to biomedical technology.
Fe based nanocomposites prepared by mechanical attrition
Investigation of Alumina – Transition Metals as Armor Material
Projects
Projects (3)
The aim of the project is to measure the particle sizes in images obtained by scanning electron microscope and investigate the particle sizes accuracy via using image segmentation.
The purpose of this research project is to produce high strength binary and ternary titanium based light weight alloys by reducing the grain size and to evaluate and increase the thermal stability for structural applications that being potentially at high temperatures
Recovering of Nickel Sulphate and Anatase Form of Titanium Dioxide
