FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI

GÜL, Ferhat

FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI

Ferhat GÜL (Gazi Ün. Teknoloji Fak. Metalurji ve Malzeme Müh. Böl.)

Mühendislik Bilimleri ve Tasarım Dergisi

3 0

Yıl: 2017 Cilt: 5 Sayı: 1 Sayfa Aralığı: 337 - 350 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022

FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI

Öz:

Bu çalışmada, vakum infiltrasyon yöntemi ile üretilen fused silika takviye edilmiş Al-10Si kompozitlerin abrasif ve adhasif aşınma davranışları araştırılmıştır. Abrasif aşınma testleri, 60, 100, 220, 400, 500, 800, 1000 ve 1200 numaralı Al2O3 zımparalar ile, 10, 20 ve 30 N yükler altında, 0.2 m/s kayma hızında disk üzerinde pim aşınma cihazı kullanılarak gerçekleştirilmiştir. Adhasif aşınma testleri ise 20, 40 ve 60 N yük, 1 m/s kayma hızı ve 1800 m kayma mesafesi kullanılarak gerçekleştirilmiştir. İnfiltrasyon yönteminde, matriks malzemesi olarak Al10Si ve Al10Si+%5 Mg alaşımları kullanılmıştır. Al10Si alaşımına % 5 Mg ilavesinin, 60 Mesh zımpara ve 20-30 N yük şartlarında, matriksin aşınma kaybının arttırdığı, ancak kompozitlerinin aşınma kaybını azalttığı tespit edilmiştir. Deneysel abrasif aşınma sonuçlarının analiz edilmesi için minitab V16 istatistiksel analiz programı kullanılmıştır. İstatistiksel analiz sonuçları, abrasif aşınma testlerinde en etkin parametrelerin uygulanan yük ve aşındırıcı boyutu olduğunu göstermektedir

Anahtar Kelime:

INVESTIGATION OF THE ABRASIVE AND ADHESIVE WEAR BEHAVIOR OF ALUMINUM ALLOY COMPOSITES REINFORCED BY FUSED SILICA

Öz:

In this study, abrasive and adhesive wear behaviors of fused silica particle reinforced Al10Si composites produced by vacuum infiltration method were investigated. Abrasive wear tests were carried out under the normal loads of 10, 20 and 30 N, 0.2 m/s sliding speed against to 60, 100, 220, 400, 500, 800, 1000 and 1200 grades abrasive Al2O3 papers using a pin-on-disc type apparatus. Adhesive wear tests were performed using applied loads of 20, 40 and 60 N, sliding speed of 1 m/s and sliding distance of 1800 m. In the infiltration process, Al10Si and Al10Si+%5 Mg alloys were used as the matrix materials. It was found that the addition of 5% Mg into Al10Si alloy increased the wear loss of matrix materials at the test condition under 60 Mesh abrasive paper and 20-30N, but decreased the wear loss of their composites. Minitab V16 statistical analysis program was used for analyzing of experimental abrasive wear results. Statistical analysis results showed that the most effective parameters in the wear tests were applied load and abrasive size. Alıntı / Cite Gül, F. (2017). Investigation Of The Abrasive And Adhesive Wear Behavior Of Aluminum Alloy Composites Reinforced By Fused Silica, Journal of Engineering Sciences and Design, 5(1), 337-350

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Acılar M. ve Gül, F. 2002, Al-SiCp Kompozitlerin Vakum İnfiltrasyon Yöntemi İle Üretiminde Yöntem Değişkenlerinin İncelenmesi, 3rd International Powder Metallurgy Conference, Turkish Powder Metallurgy Association Gazi University, Ankara, Turkey, September 4-8, 958-972.
Acılar M. ve Gül, F. 2003, Vakum İnfiltrasyon Yöntemi İle Üretilen Al-SiCp Kompozitlerde Mg İlavesi ve SiC Oksidasyonunun Etkisi, 3. Uluslararası İleri Teknolojiler Sempozyumu, 18-20 Ağustos Ankara, 213-227.
Arunagiri K.S., Radhika N., 2016, Studies on Adhesive Wear Characteristics of Heat Treated Aluminium LM25/AlB2 Composites Tribology in Industry Vol. 38(3), 277-285.
Attar S. Nagaral, M., Reddappa, H. N. and Auradi V., Attar A., 2015, A Review on Particulate Reinforced Aluminum Metal Matrix Composites February Journal of Emerging Technologies and Innovative Research Volume 2(2), 224-229.
Bansal S. and Saini J. S., 2015, Mechanical and Wear Properties of SiC/Graphite Reinforced Al359 Alloybased Metal Matrix Composite Mechanical and Wear Properties of SiC/Graphite Reinforced Al 359 Alloy-based Metal Matrix Composite Defence Science Journal, Vol. 65(4), 330-338.
Candan, E. Ahlatci, H. Çimenoğlu, H. 2001, Abrasive wear behaviour of Al–SiC composites produced by pressure infiltration technique, Wear 247, 133– 138,
Çanakçı A., Arslan F., 2012, Abrasive wear behaviour of B4C particle reinforced Al2024 MMCs International Journal of Advanced Manufacturing Technology, Volume 63, Issue 5-8, November, 785- 795.
Çiftçi İ., Cutting 2009, Tool Wear Mechanism When Machining Particulate Reinforced MMCs, Technology 12(4), 275-282.
Dariusz M., bek J. Chmielewski M., Wojciechowski T., 2015, The measurement of the adhesion force between ceramic particles and metal matrix in ceramic reinforced-metal matrix composites, Composites: Part A 76, 124–130.
Deuis R.L. Subramanian C., 1997, Dry Slıdıng Wear Of Alumınıum Composıtes-A Revıew” & J. M. Yellup Composites Science and Technology 57, 415-435.
Esmaily, M. Mortazavi, N. Svensson, J.E. Halvarsson, M. Wess_en, MJohansson, . L.G. Jarfors A.E.W. C., 2016, A new semi-solid casting technique for fabricating SiC-reinforced Mg alloys matrix composites Composites Part B 94, 176-189.
Gawdzińska K., Chybowski L, Przetakiewicz W., 2016, Proper matrix-reinforcement bonding in cast metal matrix composites as a factor of their good quality, Archives of Civil and Mechanical Engineering 16, 553-563.
Ghosh S.,, Sahoo P., Sutradhar G., 2015, Study of Tribological Characteristics of Al-SiC Metal Matrix Composite International Journal of Advanced Materials Research Vol. 1, No. 2, 53-58.
Ibrahim M.F., Ammar H.R., Samuel A.M., Soliman, M.S. Samuel F.H. 2015, On the impact toughness of Al15 vol.% B4C metal matrix composites Composites Part B 79, 83-94.
ayashree P .K., Gowri P.K, Shankar M.C, Kinia A., Sharma S.Sa , and Shettya R., 2013, Review on Effect of Silicon Carbide (SiC) on Stir Cast Aluminium Metal Matrix Composites, International Journal of Current Engineering and Technology, Vol.3(3), 1061-1071.
Kaushik, N.Ch. Rao R.N., 2016, The effect of wear parameters and heat treatment on two body abrasive wear of Al–SiC–Gr hybrid composites, Tribology, International 96 184–190
Kovarikova I., Szewczykova B., Blaskovitssp P., Hodulova E., Lechovic E., Study an Characteristic of Abrasive Wear Mechanism, doi:http://www.mtf.stuba.sk/docs/internetovy_c asopis/2009/1/kovarikova.pdf (Güncel erişim : 22.01.2017)
Kök M., (2008), A Study on the Machinability of Al2O3 Particle Reinforced Aluminum Alloy Composite, 11 th Inorganic Bonded Fiber Composites Conference, November 5,7 Madrid, Spain, pp 272-281.
Kumar M.P., Sadashıvappa K., Prahukumar G.P, Basavarajappa S., 2006, Dry Sliding Wear Behaviour of Garnet Particles Reinforced ZincAluminium Alloy Metal Matrix Composites, Materials Science, Vol. 12, No. 3. 209-213.
Li D., Yua Y., Qinb Q.H., Zhoua X., Zoua A.,, Huaa X, Zhanga J., Wu W., 2013, Size Effect of SiC Particle on Microstructures and Mechanical Properties of SiCp/Al Composites Fourth International Conference on Smart Materials and Nanotechnology in Engineering, Proc. of SPIE Vol. 8793, 1-6
Mangino E, Pitarresi, G., 2007, The future use of structural composite materials in the automotive industry, International Journal of Vehicle Design 44(3-4), 1-40.
Modi, O.P., Yadav, R.P., Prasad B.K., Jha, A.K., Das, S., Yegneswaran, A.H., 2001, Three-body abrasion of a cast zinc–aluminium alloy: influence of Al2O3 dispersoid and abrasive medium, Wear 249, 792– 799
Modi, O.P., 2001, Two-body abrasion of a cast Al–Cu (2014 Al) alloy–Al2O3 particle composite: influence of heat treatment and abrasion test parameters, Wear 248, 100-111.
Muthukrishnan N., and Davim J. P., 2011, An investigation of the effect of work piece reinforcing percentage on the machinability of Al-SiC metal matrix composites, Journal of Mechanical Engineering Research Vol. 3.(1), 15-24.
Naplocha K., Kaczmar J.W., 2011, Wear mechanisms of fibre reinforced composite materials based on 2024 and 7075 aluminum alloys, Journal of Achievements in Materials and Manufacturing Engineering, Vol 49(2), 180-187.
Naravade R.H., Belkar R.K., 2014, Statistical Analysis of Factors Affecting the Dry Sliding Wear Behaviour of Al/SiCp on Automobile Friction Material The International Journal Of Engineering And Science (IJES) Volume 3, Issue 12, 05-13.
Patel S.K. Nateriya R., Dixit G., 2015, Microstructural Analysis, Microhardness and Compressive Behaviour of Dual Reinforforced Particles ADC-12 Alloy Composite International Journal of Engineering Technologies and Management Research A Vol.1 (Iss.1), 23-34
Pintaude G., Characteristics of Abrasive Particles and Their Implications on Wear http://cdn.intechopen.com/pdfs-wm/15604.pdf
Qian-Gang Xu, Li-Wei Guo, Li Zhang, Hong Liu, 2016, Wettability of zirconium-coated alumina by molten aluminum Surface & Coatings Technology 302, 150–157.
Radhıka N., Vıjaykarthık K.T., Shıvaram P., 2015, Adhesıve Wear Behavıour Of Alumınıum Hybrıd Metal Matrıx Composıtes Usıng Genetıc Algorıthm, Journal of Engineering Science and Technology Vol. 10(3), 258-268.
Rajmohan T., . Palanıkumar K., Ranganathan S., 2013, Evaluation of mechanical and wear properties of hybrid aluminium matrix composites Trans. Nonferrous Met. Soc. China 23, 2509−2517
Reddy A.C and Zitoun E., 2010, Matrix Al-alloys for silicon carbide particle reinforced metal matrix composites, Indian Journal of Science and Technology Vol. 3(12), 1184-1187.
Salih A.İ.,, Hammed M.G , Ibrahim, M.I., 2012, Studying the dry sliding wear behavior of Al-4%Cu/ SiC Metal Matrix Composite with heat treatment, Tikrit Journal of Pure Science 17(4), 138-143.
Salvo E. S., Ribero L.A.,Burgos M.C., Nascimento C., Ito E.N, 2014, Rheological and mechanical characterization of poly (methyl methacrylate)/silica (PMMA/SiO2) composites, Mat. Res. vol.17(4), 926-932.
Sayuti M., Sulaiman S., Vijayaram T.R., Baharudin B.T.H.T and Arifin M.K.A. 2012, Manufacturing and Properties of Quartz (SiO2) Particulate Reinforced Al-11.8%Si Matrix Composites, Chapter 18, Composites and Their Properties, materials Science, Composite Materials, “Composites and Their Properties” book edited : August 22, 411- 436. http://www.safagurcan.org/doktora/varyansanalizi. doc (Güncel erişim:22.01.2017)
Singh G., Goyal K.,, Goyal D.K., 2015, Fabrication and Investigation of Mechnical Properties of Al-flyashSiC Composites Universal Journal of Mechanical Engineering 3(5), 173-184.
Singh, M., Mondal, D.P., Jha, A.K., Das, S., Yegneswaran, A.H., 2001, Preparation and properties of cast aluminium alloy-sillimanite particle composite Composites: Part A 32, 787-795.
Singh, M., Mondal, D.P., Modi, O.P., Jha, A.K., 2002, Twobody abrasive wear behaviour of aluminium alloy– sillimanite particle reinforced composite, Wear 253, 357–368
Soleymani S., Abdollah-zadeh A., Alidokht S.A., 2011, Tribological Properties of Surface Layer of an Al Alloy by Friction Stir Processing, Journal of Surface Engineered Materials and Advanced Technology, 1, 95-100
Sujan, D., Oo Z., Rahman M. E., Maleque M. A., Tan C. K., 2012, Physio-mechanical Properties of Aluminium Metal Matrix Composites Reinforced with Al2O3 and SiC World Academy of Science, Engineering and Technology International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering Vol:6(8) 678-681.
Swamy A. R. K., Ramesha A., Kumar G.B. V, Prakash J. N., 2011, Effect of Particulate Reinforcements on the Mechanical Properties of Al6061-WC and Al6061-Gr MMCs, Journal of Minerals & Materials Characterization & Engineering, Vol. 10(12), 1141- 1152.
Tanyıldızı H, Coşkun A., 2013, Varyans (ANOVA) analizi yöntemi ile silis dumanı katkılı hafif betonun mekanik özelliklerine deney parametrelerinin etkilerinin belirlenmesi”, Erciyes Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 29(3), 227-233.
Umale T., Singh A., Reddy Y., Khatıtrkar R. K., Spate S. G., 2013, Abrasive Wear Behaviour of Copper-SiC and Copper-SiC and Copper-SiO2 Composites International Conference on Ceramics, Bikaner, India International Journal of Modern Physics: Conference Series Vol. 22, 416–423.
Ubeyli M., Acır A., Karaka, M. S., Demir T., 2008, On the Surface Roughness of AI-4 % Cu/B4C Metal Matrix Composites Machined by Milling Operation, Science and Engineering of Composite Materials 15, 131-139.
Uzkut M., 2013, Abrasive Wear Behaviour of SiCpReinforced 2011 Al-Alloys Composites Materials and technology 47 (5), 635–638.
Varyans Analizi (ANOVA), Kovaryans Analizi (ANCOVA), Faktöriyel ANOVA, Çoklu Varyans Analizi (MANOVA)
Doi:http://yunus.hacettepe.edu.tr/~tonta/course s/fall2007/sb5002/sb5002-10-varyansanalizi.pdf (Güncel erişim:22.01.2017)
Verma A.S, Sumankant, N. Mohan Yashpald S. 2015, Corrosion Behavior of Aluminum base Particulate Metal Matrix Composites: A review, 4th International Conference on Materials Processing and Characterization, Materials Today: Proceedings, Volume 2, Issues 4–5, 2840-2851
http://www.deu.edu.tr/userweb/s.ucdogruk/ISTATI STIKII/VARYANS_ANALIZI_30.05.2013.PPT (Güncel erişim:22.01.2017)
Yi-qi W.,, Jung-il S., 2011, Dry sliding wear behavior of Al2O3 fiber and SiC particle reinforced aluminium based MMCs fabricated by squeeze casting method, Trans. Nonferrous Met. Soc. China 21, 1441−1448
Zhan Y.,, Zhang G. and Zhuang Y., 2004, Wear Transitions in Particulate Reinforced Copper Matrix Composites Materials Transactions, Vol. 45, No. 7, 2332-2338.

APA	GÜL F (2017). FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. , 337 - 350.
Chicago	GÜL Ferhat FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. (2017): 337 - 350.
MLA	GÜL Ferhat FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. , 2017, ss.337 - 350.
AMA	GÜL F FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. . 2017; 337 - 350.
Vancouver	GÜL F FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. . 2017; 337 - 350.
IEEE	GÜL F "FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI." , ss.337 - 350, 2017.
ISNAD	GÜL, Ferhat. "FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI". (2017), 337-350.

APA	GÜL F (2017). FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. Mühendislik Bilimleri ve Tasarım Dergisi, 5(1), 337 - 350.
Chicago	GÜL Ferhat FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. Mühendislik Bilimleri ve Tasarım Dergisi 5, no.1 (2017): 337 - 350.
MLA	GÜL Ferhat FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. Mühendislik Bilimleri ve Tasarım Dergisi, vol.5, no.1, 2017, ss.337 - 350.
AMA	GÜL F FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. Mühendislik Bilimleri ve Tasarım Dergisi. 2017; 5(1): 337 - 350.
Vancouver	GÜL F FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI. Mühendislik Bilimleri ve Tasarım Dergisi. 2017; 5(1): 337 - 350.
IEEE	GÜL F "FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI." Mühendislik Bilimleri ve Tasarım Dergisi, 5, ss.337 - 350, 2017.
ISNAD	GÜL, Ferhat. "FUSED SİLİKA TAKVİYE EDİLMİŞ ALÜMİNYUM ALAŞIMI KOMPOZİTLERİN ABRASİF VE ADHASİF AŞINMA DAVRANIŞININ ARAŞTIRILMASI". Mühendislik Bilimleri ve Tasarım Dergisi 5/1 (2017), 337-350.