Konca, Erkan
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Konca E.
K., Erkan
K.,Erkan
Konca, E.
Erkan, Konca
E., Konca
Konca, E
E.,Konca
Konca, Erkan
Konca,E.
K., Erkan
K.,Erkan
Konca, E.
Erkan, Konca
E., Konca
Konca, E
E.,Konca
Konca, Erkan
Konca,E.
Job Title
Doçent Doktor
Email Address
erkan.konca@atilim.edu.tr
Main Affiliation
Metallurgical and Materials Engineering
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WoS Researcher ID
Sustainable Development Goals
1NO POVERTY
0
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2ZERO HUNGER
0
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3GOOD HEALTH AND WELL-BEING
1
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4QUALITY EDUCATION
0
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5GENDER EQUALITY
0
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6CLEAN WATER AND SANITATION
0
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7AFFORDABLE AND CLEAN ENERGY
3
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8DECENT WORK AND ECONOMIC GROWTH
0
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9INDUSTRY, INNOVATION AND INFRASTRUCTURE
1
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10REDUCED INEQUALITIES
0
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11SUSTAINABLE CITIES AND COMMUNITIES
0
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12RESPONSIBLE CONSUMPTION AND PRODUCTION
0
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13CLIMATE ACTION
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14LIFE BELOW WATER
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15LIFE ON LAND
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16PEACE, JUSTICE AND STRONG INSTITUTIONS
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17PARTNERSHIPS FOR THE GOALS
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Documents
25
Citations
880
h-index
18
Documents
23
Citations
771
Scholarly Output
23
Articles
10
Views / Downloads
87/1065
Supervised MSc Theses
6
Supervised PhD Theses
3
WoS Citation Count
112
Scopus Citation Count
111
Patents
0
Projects
0
WoS Citations per Publication
4.87
Scopus Citations per Publication
4.83
Open Access Source
5
Supervised Theses
9
| Journal | Count |
|---|---|
| Metals | 2 |
| Hittite Journal of Science and Engineering | 1 |
| International Journal of Electrochemical Science | 1 |
| International Journal of Surface Science and Engineering | 1 |
| Journal of Materials Science | 1 |
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12 results
Scholarly Output Search Results
Now showing 1 - 10 of 12
Article Citation - WoS: 23Citation - Scopus: 27Effect of Electrodeposition Parameters on the Current Density of Hydrogen Evolution Reaction in Ni and Ni-mos2 Composite Coatings(Esg, 2013) Gueler, E. Saraloglu; Konca, E.; Karakaya, I.; Saralog̀lu Güler, E.; Metallurgical and Materials EngineeringNickel composites with co-deposited insoluble, solid lubricant particles such as MoS2 have been reported to reduce friction. It is known that hydrogen evolution reaction (HER), competes with nickel deposition. The influence of the parameters and their interaction effects on the peak current density of HER during the electrodeposition of Ni and Ni-MoS2 composite coatings were studied by fractional factorial design. The parameters and their ranges studied were; MoS2 particle concentration (0-30 g/l), temperature (30-50 degrees C), pH (2-4) and two surfactants, namely; ammoniumlignosulfonate (ALS) and depramin-C (DC) (0-1 g/l). Electrodeposition processes were carried out from a typical Watts bath containing leveler, wetting agent and brightener by using a potentiostat. The peak current densities (i(p)) were extended to higher values and the peaks on linear sweep voltammograms became noticeable by increasing the scan rate from 20 mV/s to 100 mV/s over the range of 0 to 2.5 V. The peak current densities (i(p)) of HER for each experimental route were determined by fractional factorial design for two mineral processing surfactants; ammoniumlignosulfonate (ALS) and depramin-C (DC) using a statistical analysis software named Minitab [1]. Adding MoS2, decreasing temperature and increasing pH had decreasing effects on the peak current density of HER regardless of the surfactant used. On the other hand, the surfactants increased the peak current density.Conference Object Citation - Scopus: 1Effect of Electroplating Parameters on Internal Stress in Ni-Mos 2 Composite Plating(2013) Saraloǧlu Güler,E.; Konca,E.; Karakaya,I.[No abstract available]Doctoral Thesis Derin Çekme Sınır Oranın, Flanş Bölgesinin Isıtılarak Artırılması için Yöntem Geliştirilmesi(2015) Kayhan, Erdem; Kaftanoğlu, Bilgin; Kayhan, Erdem; Kaftanoğlu, Bilgin; Kayhan, Erdem; Kaftanoğlu, Bilgin; Konca, Erkan; Manufacturing Engineering; Airframe and Powerplant Maintenance; Manufacturing Engineering; Airframe and Powerplant MaintenanceBu tez çalışmasında geliştirilen yöntem kısaca, sac metal malzemelerin şekillendirilme oranının flanş bölgesinin eş sıcaklık dağılımsız ısıtılarak artırılması olarak açıklanabilir. Sıcaklık artışı malzemenin sünekliğinde belirgin bir yükselmeye ve buna bağlı olarak şekillendirilme kapasitesinin artmasına neden olur. Sıcaklık artışı ayrıca malzemenin akma sınırının düşmesi ile birlikte, uygulama kuvvetlerinde ve basınçlarında azalma meydana gelir. Otomotiv endüstrisinde en yaygın kullanıma sahip olan Yüksek Mukavemet Sac Çelik (AHSS) malzeme DP600 olup, araç ağırlıklarının azalmasını ve çarpışma emniyet faktörünün artmasını sağlamasından dolayı bu tez çalışmasında araştırma malzemesi olarak seçilmiştir. Adı geçen çelik malzemelerin kullanımı malzeme kalınlıklarının ve yakıt sarfiyatının azalmasını sağlar. Yapılan araştırmada geliştirilen yöntemin geçerliliği üç farklı tip malzeme, bunlardan iki tanesi Düşük Alaşımlı Yüksek Mukavemet çeliği (HSLA), diğeri ise IF (Arayersiz Çelikler) çeliği kullanılarak, incelenmiştir. Flanş bölgesinin sıcaklığının 180oC to 300oC değerleri arasında oluşturulduğu deneylerde derin çekme sınır oranında %25.58 kadar artış sağlanmıştır. Kullanılan sıcaklık ılık işlem sıcaklığı seviyesinde olduğundan, şekillendirilme kuvvetlerinde azalma meydana gelmesine rağmen malzemenin özelliklerinde ve dayanımında bir değişim gerçekleşmemektedir.Conference Object Effect of Electroplating Parameters on "her" Current Density in Ni-Mos2 Composite Plating(Minerals, Metals and Materials Society, 2012) Güler,E.S.; Karakaya,I.; Konca,E.; Saraloǧlu Güler, EbruNickel composites with co-deposited insoluble, solid lubricant particles such as MoS2 have been reported to reduce friction. It is known that hydrogen evolution reaction (HER), competes with nickel deposition. The influence of the electroplating parameters and their interaction effects on the peak current density for HER were studied by fractional factorial design. The parameters and their ranges were; MoS2 concentration (0-30 g/l), temperature (30-50°C), pH (2-4) and surfactants (0-1 g/l). Electrodeposition processes were carried out from a typical Watts bath containing leveler, wetting agent and brightener by using a potentiostat. The peak currents (I p) were extended to higher values and the peaks on linear sweep voltammograms became noticeable by increasing the scan rate from 20 mV/s to 100 mV/s over the range 0 to 2.5 V. The peak current densities (ip) for each experimental route were determined by fractional factorial design for three types of mineral processing surfactants; sodiumlignosulfonate (SLS), depramin-C (DC) and ammoniumlignosulfonate (ALS) using Minitab program [1]. Adding MoS2, decreasing temperature and increasing pH has decreasing effect on peak current density for all surfactants. ALS and DC have increasing effect whereas SLS has descending effect on peak current.Article Citation - WoS: 29Citation - Scopus: 34Effects of Alloying Elements (Mo, Ni, and Cu) on the Austemperability of GGG-60 Ductile Cast Iron(Mdpi, 2017) Konca, Erkan; Tur, Kazim; Koc, ErkinThe interest in austempered ductile irons (ADI) is continuously increasing due to their various advantageous properties over conventional ductile irons and some steels. This study aimed to determine the roles of alloying elements Ni, Cu, and Mo, on the austemperability of GGG-60 ductile cast iron. Two different sets of GGG-60 (EN-GJS-600-3) samples, one set alloyed with Ni and Cu and the other set alloyed with Mo, Ni, and Cu, were subjected to austempering treatments at 290 degrees C, 320 degrees C, and 350 degrees C. A custom design heat treatment setup, consisting of two units with the top unit (furnace) serving for austenitizing and the 200 L capacity bottom unit (stirred NaNO2-KNO3 salt bath) serving for isothermal treatment, was used for the experiments. It was found that austempering treatment at 290 degrees C increased the hardness of the Ni-Cu alloyed GGG-60 sample by about 44% without causing a loss in its ductility. In the case of the Mo-Ni-Cu alloyed sample, the increase in hardness due to austempering reached to almost 80% at the same temperature while some ductility was lost. Here, the microstructural investigation and mechanical testing results of the austempered samples are presented and the role of alloying elements (Mo, Ni, and Cu) on the austemperability of GGG-60 is discussed.Article Citation - Scopus: 20Investigation of the Tribological Behaviour of Electrocodeposited Ni-Mos2 Composite Coatings(Inderscience Publishers, 2017) Güler,E.S.; Konca,E.; Karakaya,I.Composite electroplating of solid lubricants in a metal matrix is an effective way to lower coefficient of friction (COF) and improve wear resistance of surfaces in sliding contact. In this work, Ni-MoS2 composite coatings were deposited on AISI 304 stainless steel substrates by electroplating from Watts bath containing suspended MoS2 particles and their tribological behaviour was studied. The effects of MoS2 particle concentration (5, 10 and 30 g/l), MoS2 particle size (1.440 and 5.156 μm), pH (2, 3 and 4), current density (3.8, 4.8 and 5.8 A/dm2) and the surfactant (sodium lignosulfonate, SLS) concentration (0.3 and 1 g/l) on the tribological behaviour were investigated using a ball-on-disc tribometer at ambient conditions. Lower current density, smaller particle size and higher concentration of MoS2 decreased COF. While increasing the surfactant concentration decreased the COF, its friction lowering effect was much more pronounced at relatively lower concentrations of MoS2 in the electrolyte. Copyright © 2017 Inderscience Enterprises Ltd.Master Thesis Termomekanik Denetimli Haddeleme Yöntemi ile Apı X60 ve X70 Sınıfı Çelik Levha Üretimi(2018) Güneş, Seren; Konca, ErkanBu çalışma, API PSL2 X60M ve X70M sınıflarında çelik levha üretimi için haddeleme ve soğutma koşullarını belirlemek üzere bir ön çalışma olarak gerçekleştirilmiştir. Kimyasal kompozisyonları ilgili API spesifikasyonuna uygun 200 mm kalınlığında iki adet tam boy Nb-Ti-V mikroalaşımlı çelik slab, 14 adet küçük slaba dilimlenmiş ve bu slab dilimlerine 20 mm kalınlığında levha üretmek üzere farklı koşullarda termomekanik haddeleme ve hızlandırılmış soğutma işlemleri uygulanmıştır. Özel olarak; i) bitirme haddelemesi sıcaklığı, ii) toplam ezmenin kaba ve bitime haddelemesi arasındaki dağılımı ve iii) duşlu masa kullanarak hızlandırılmış soğutma uygulamanın etkileri çalışılmıştır. Deneme üretimi levhalardan alınan numunelerin mekanik testleri (çekme, darbe ve düşürme ağırlıklı yırtma deneyi-DWTT) ve metalografik incelemeleri gerçekleştirilmiştir. API PSL 2 kapsamında X60 sınıfı çelik levhalar için istenen mekanik özellikleri karşılayan ince taneli ferritik içyapıların tek başına denetimli haddeleme ile üretilebildiği koşullar belirlenmiştir. Öte yandan, API X70 sınıfı çelik levha üretimi için denetimli haddelemeye ek olarak hızlandırılmış soğutmanın da uygulanması gerekmiştir.Book Part Effect of Electroplating Parameters on Internal Stress in Ni-M0s2 Composite Plating(Wiley Blackwell, 2013) Güler,E.S.; Konca,E.; Karakaya,I.[No abstract available]Article Citation - WoS: 18Investigation of the Tribological Behaviour of Electrocodeposited Ni-mos2 Composite Coatings(inderscience Enterprises Ltd, 2017) Guler, Ebru Saraloglu; Konca, Erkan; Karakaya, IshakComposite electroplating of solid lubricants in a metal matrix is an effective way to lower coefficient of friction (COF) and improve wear resistance of surfaces in sliding contact. In this work, Ni-MoS2 composite coatings were deposited on AISI 304 stainless steel substrates by electroplating from Watts bath containing suspended MoS2 particles and their tribological behaviour was studied. The effects of MoS2 particle concentration (5, 10 and 30 g/l), MoS2 particle size (1.440 and 5.156 mu m), pH (2, 3 and 4), current density (3.8, 4.8 and 5.8 A/dm(2)) and the surfactant (sodium lignosulfonate, SLS) concentration (0.3 and 1 g/l) on the tribological behaviour were investigated using a ball-on-disc tribometer at ambient conditions. Lower current density, smaller particle size and higher concentration of MoS2 decreased COF. While increasing the surfactant concentration decreased the COF, its friction lowering effect was much more pronounced at relatively lower concentrations of MoS2 in the electrolyte.Conference Object Effect of Electroplating Parameters on "her" Current Density in Ni-mos2 Composite Plating(Minerals, Metals & Materials Soc, 2012) Guler, Ebru Saraloglu; Karakaya, Ishak; Konca, ErkanNickel composites with co-deposited insoluble, solid lubricant particles such as MoS2 have been reported to reduce friction. It is known that hydrogen evolution reaction (HER), competes with nickel deposition. The influence of the electroplating parameters and their interaction effects on the peak current density for HER were studied by fractional factorial design. The parameters and their ranges were; MoS2 concentration (0-30 g/l), temperature (30-50 degrees C), pH (2-4) and surfactants (0-1 g/l). Electrodeposition processes were carried out from a typical Watts bath containing leveler, wetting agent and brightener by using a potentiostat. The peak currents (I-p) were extended to higher values and the peaks on linear sweep voltammograms became noticeable by increasing the scan rate from 20 mV/s to 100 mV/s over the range 0 to 2.5 V. The peak current densities (i(p)) for each experimental route were determined by fractional factorial design for three types of mineral processing surfactants; sodiumlignosulfonate (SLS), depramin-C (DC) and ammoniumlignosulfonate (ALS) using Minitab program [1]. Adding MoS2, decreasing temperature and increasing pH has decreasing effect on peak current density for all surfactants. ALS and DC have increasing effect whereas SLS has descending effect on peak current.
