Araştırma Makalesi
Yıl 2019,
Cilt: 3 Sayı: 1, 22 - 26, 26.08.2019
Öz
Destekleyen Kurum
bingöl üniversitesi
Proje Numarası
bap
Teşekkür
Bu çalışma Bingöl Üniversitesi Bilimsel Araştırmaşlar Birimi Tarafından BAP-SBF.2018.00.002 nolu proje kapsamından desteklenmiştir. Katkılaraından dolayı Bingöl Üniversitesi BAP birimine teşekkür ederiz.
Kaynakça
- [1] Jiandong Wang, LiqunLi,WangTao, Crack initiation and propagation behavior of WC particles reinforced Fe-based metal matrix composite produced by laser melting deposition, Optics &LaserTechnology82(2016)170–182,
- [2] Hang Zhao, Jianjun Li, Zhizhen Zheng, Aihua Wang, Dawen Zeng, Yafeng Miao, The microstructures and tribological properties of composite coatings formed via PTA surface alloying of copper on nodular cast iron, Surface & Coatings Technology 286 (2016) 303–312,
- [3] Arman Khalili, Massoud Goodarzi, Milad Mojtahedi, Mohammad Javad Torkamany, Solidification microstructure of in-situ laser-synthesized Fe-TiC hard coating, Surface & Coatings Technology 307 (2016) 747–752
- [4] Chinmaya Kumar Sahoo, Manoj Masanta, Microstructure and tribological behaviour of TiC-Ni-CaF2compositecoating produced by TIG cladding process, Journal of Materials Processing Technology 243 (2017) 229–245,
- [5] F. Madadi, M. Shamanian, F. Ashrafizadeh, Effect of pulse current on microstructure and wear resistance of Stellite6/tungsten carbide claddings produced by tungsten inert gas process, Surface & Coatings Technology 205 (2011) 4320–4328
- [6] Šárka Houdková, Zdenek Pala, Eva Smazalová, Marek Vostřák, Zdeněk Česánek, Microstructure and sliding wear properties of HVOF sprayed, laser remelted and laser clad Stellite 6 coatings, Surface & Coatings Technology 318 (2017) 129–141
- [7] Qi An, Lujun Huang, Shan Jiang, Xinting Li, Yanan Gao, Yue Liu, Lin Geng, Microstructure evolution and mechanical properties of TIG cladded TiB reinforced composite coating on Ti-6Al-4V alloy, Vacuum 145 (2017) 312-319,
- [8] Jun-sheng Meng, Guo Jin, Xiao-ping Shi, Structure and tribological properties of argon arc cladding Ni-based nanocrystalline coatings, Applied Surface Science 431 (2018) 135–142
- [9] S. Buytoz Microstructural properties of SiC based hardfacing on low alloy steel, Surface & Coatings Technology 200 (2006) 3734–3742[10] SonerBuytozaMustafaUlutanb, In situ synthesis of SiC reinforced MMC surface on AISI 304 stainless steel by TIG surface alloying, Surface & Coatings Technology 200 (2006) 3698 – 3704.
- [11] J.H. Chen, P.N. Chen , C.M. Lin, C.M. Chang, Y.Y. Chang, W. Wu, Characterization of multi-element alloy claddings manufactured by the tungsten inert gas process, Surface & Coatings Technology 203 (2009) 2983–2988, [12] P.H. Lailatula, M.A. Maleque, Surface Modification of Duplex Stainless Steel with SiC Preplacement Using TIG Torch Cladding, Procedia Engineering 184 ( 2017 ) 737 – 742,
- [13] S. Buytoz, M. Ulutan, In situ synthesis of SiC reinforced MMC surface on AISI304 stainless steel by TIG surface alloying, Surf. Coat. Technol. 200 (2006) 3698-3704,
- [14] S. Mridha, Titanium nitride layer formation by TIG surface melting in a reactive environment, J. Mater. Proc. Technol. 168 (2005) 471-477.,
- [15] X.H. Wang, Z.D. Zou, S.L. Song, S.Y. Qu, Microstructure and wear properties of in situ TiC/FeCrBSi composite coating prepared by gas tungsten arc welding, Wear 260 (2006) 705-710.
- [16] FuquanLi, ZhenzengGao,LiqunLi,YanbinChen , Microstructural study of MMC layers produced by combining wire and coaxial WC powder feeding in laser direct metal deposition , Optics &LaserTechnology77(2016)134–143,
- [17] Mustafa Ulutan, Koray Kilic¸ ay, Osman Nuri C¸ elik, Ümit Er, Microstructure and wear behaviour of plasma transferred arc(PTA)-deposited FeCrC composite coatings on AISI 5115 steel, Journal of Materials Processing Technology 236 (2016) 26-34,
- [18] S. Buytoz, M. Ulutan, M.M. Yildirim, Dry sliding wear behavior of TIG welding clad WC composite coatings, Appl. Surf. Sci. 252 (2005) 1313-1323
- [19] Zhikun Weng, Aihua Wang, Xuhao Wu, Yuying Wang, Zhixiang Yang, Wear resistance of diode laser-clad Ni/WC composite coatings at different temperatures, Surface and Coatings Technology, Volume 304, 2016, pp. 283-292
Yıl 2019,
Cilt: 3 Sayı: 1, 22 - 26, 26.08.2019
Öz
St52 ÇELİĞİNİN
WC TAKVİYELİ TOZLA TIG KAYNAK YÖNTEMİ İLE KAPLANMASI
İhsan Kırık 1 , Zulküf Balalan 2, Yunus Andan 3, Mehmet Yaz 4
Bu çalışmanın amacı; farklı oranlarda Co-Cr esaslı
WC takviyeli tozların TIG kaynak yöntemi kullanılarak St52 çeliğinin yüzeyine
ergitilmesi yöntemi ile kaplamaları yapılmasıdır. Farklı özellikteki çelik alt
tabakaları üzerine WC-Co-Cr toz karışımları belirlenen oranlarda önceden yerleştirildi
ve TIG kaynak işlemi ile kaplama işlemleri yapıldı. Farklı özellikteki kaplama
tabakaları çelik alt tabakaya yoğun ve neredeyse hiç gözenek olmadan metalürjik
bir bağlanma gösterdi. Kaplamaların
mikroyapı ve faz analizi için, taramalı elektron mikroskobu (SEM), EDS ve X-Ray
incelemeleri yapıldı. X-ışın kırınımı incelemesi sonucu, kaplamalarda WC’ lerce
zengin düzensiz dağılımlı ötektik yapılarla birlikte birincil dentritik
fazlarında olduğu ayrıca WC-Co-Cr kaplamaları WC ve W2C ile CrC ve Cr3C2 karbürleri
ile Kobalt, Nikel, Karbonun düzensiz dağılım gösteren fazlarından oluşmuştur.
Anahtar kelimeler: WC-Co-Cr, TIG kaplama, St52
Anahtar Kelimeler
Proje Numarası
bap
Kaynakça
- [1] Jiandong Wang, LiqunLi,WangTao, Crack initiation and propagation behavior of WC particles reinforced Fe-based metal matrix composite produced by laser melting deposition, Optics &LaserTechnology82(2016)170–182,
- [2] Hang Zhao, Jianjun Li, Zhizhen Zheng, Aihua Wang, Dawen Zeng, Yafeng Miao, The microstructures and tribological properties of composite coatings formed via PTA surface alloying of copper on nodular cast iron, Surface & Coatings Technology 286 (2016) 303–312,
- [3] Arman Khalili, Massoud Goodarzi, Milad Mojtahedi, Mohammad Javad Torkamany, Solidification microstructure of in-situ laser-synthesized Fe-TiC hard coating, Surface & Coatings Technology 307 (2016) 747–752
- [4] Chinmaya Kumar Sahoo, Manoj Masanta, Microstructure and tribological behaviour of TiC-Ni-CaF2compositecoating produced by TIG cladding process, Journal of Materials Processing Technology 243 (2017) 229–245,
- [5] F. Madadi, M. Shamanian, F. Ashrafizadeh, Effect of pulse current on microstructure and wear resistance of Stellite6/tungsten carbide claddings produced by tungsten inert gas process, Surface & Coatings Technology 205 (2011) 4320–4328
- [6] Šárka Houdková, Zdenek Pala, Eva Smazalová, Marek Vostřák, Zdeněk Česánek, Microstructure and sliding wear properties of HVOF sprayed, laser remelted and laser clad Stellite 6 coatings, Surface & Coatings Technology 318 (2017) 129–141
- [7] Qi An, Lujun Huang, Shan Jiang, Xinting Li, Yanan Gao, Yue Liu, Lin Geng, Microstructure evolution and mechanical properties of TIG cladded TiB reinforced composite coating on Ti-6Al-4V alloy, Vacuum 145 (2017) 312-319,
- [8] Jun-sheng Meng, Guo Jin, Xiao-ping Shi, Structure and tribological properties of argon arc cladding Ni-based nanocrystalline coatings, Applied Surface Science 431 (2018) 135–142
- [9] S. Buytoz Microstructural properties of SiC based hardfacing on low alloy steel, Surface & Coatings Technology 200 (2006) 3734–3742[10] SonerBuytozaMustafaUlutanb, In situ synthesis of SiC reinforced MMC surface on AISI 304 stainless steel by TIG surface alloying, Surface & Coatings Technology 200 (2006) 3698 – 3704.
- [11] J.H. Chen, P.N. Chen , C.M. Lin, C.M. Chang, Y.Y. Chang, W. Wu, Characterization of multi-element alloy claddings manufactured by the tungsten inert gas process, Surface & Coatings Technology 203 (2009) 2983–2988, [12] P.H. Lailatula, M.A. Maleque, Surface Modification of Duplex Stainless Steel with SiC Preplacement Using TIG Torch Cladding, Procedia Engineering 184 ( 2017 ) 737 – 742,
- [13] S. Buytoz, M. Ulutan, In situ synthesis of SiC reinforced MMC surface on AISI304 stainless steel by TIG surface alloying, Surf. Coat. Technol. 200 (2006) 3698-3704,
- [14] S. Mridha, Titanium nitride layer formation by TIG surface melting in a reactive environment, J. Mater. Proc. Technol. 168 (2005) 471-477.,
- [15] X.H. Wang, Z.D. Zou, S.L. Song, S.Y. Qu, Microstructure and wear properties of in situ TiC/FeCrBSi composite coating prepared by gas tungsten arc welding, Wear 260 (2006) 705-710.
- [16] FuquanLi, ZhenzengGao,LiqunLi,YanbinChen , Microstructural study of MMC layers produced by combining wire and coaxial WC powder feeding in laser direct metal deposition , Optics &LaserTechnology77(2016)134–143,
- [17] Mustafa Ulutan, Koray Kilic¸ ay, Osman Nuri C¸ elik, Ümit Er, Microstructure and wear behaviour of plasma transferred arc(PTA)-deposited FeCrC composite coatings on AISI 5115 steel, Journal of Materials Processing Technology 236 (2016) 26-34,
- [18] S. Buytoz, M. Ulutan, M.M. Yildirim, Dry sliding wear behavior of TIG welding clad WC composite coatings, Appl. Surf. Sci. 252 (2005) 1313-1323
- [19] Zhikun Weng, Aihua Wang, Xuhao Wu, Yuying Wang, Zhixiang Yang, Wear resistance of diode laser-clad Ni/WC composite coatings at different temperatures, Surface and Coatings Technology, Volume 304, 2016, pp. 283-292
Toplam 17 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | Türkçe |
|---|---|
| Konular | Mühendislik |
| Bölüm | Makaleler |
| Yazarlar | |
| Proje Numarası | bap |
| Yayımlanma Tarihi | 26 Ağustos 2019 |
| Gönderilme Tarihi | 5 Temmuz 2019 |
| Yayımlandığı Sayı | Yıl 2019 Cilt: 3 Sayı: 1 |
Kaynak Göster
