Dry sliding behaviour of boron waste reinforced epoxy matrix composites

Calis Acikbas, Nurcan; YAMAN ISLAK, Bilge

doi:10.30728/boron.343608

Dry sliding behaviour of boron waste reinforced epoxy matrix composites

BİLGE YAMAN ISLAK, (Eskisehir Osmangazi University, Faculty of Engineering, Dept. of Metallurgical and Materials Engineering, Meselik Campus, 26480, Eskisehir, Turkey)

Nurcan ÇALIŞ AÇIKBAŞ (Bilecik Seyh Edebali University, Faculty of Engineering, Dept. of Metallurgical and Materials Engineering, Gulumbe Campus, 11210 Bilecik, Turkey;)

BOR DERGİSİ

2 0

Yıl: 2018 Cilt: 3 Sayı: 2 Sayfa Aralığı: 63 - 73 Metin Dili: İngilizce DOI: 10.30728/boron.343608 İndeks Tarihi: 19-02-2019

Dry sliding behaviour of boron waste reinforced epoxy matrix composites

Öz:

The demand for utilization of boron wastes related to the generation of massiveamounts in each year is on the rise. In order to meet this growing need and demandfor fabrication of environmentally friendly products, epoxy matrix compositescontaining 60 wt% of boron wastes was developed. The influence of boron wasteaddition and the particle size of boron waste on epoxy matrix composites onphysico-mechanical and tribological properties were evaluated. It was found that,hardness, flexural modulus and wear resistance properties were increased withthe incorporation of boron wastes. Wear resistance increased with increasingboron waste particle size. The lowest specific wear rate was achieved for thelargest particle size added composites. The physico-mechanical properties aswell as microstructure wear behavior correlation were evaluated comprehensively.

Anahtar Kelime:

Konular: Maden İşletme ve Cevher Hazırlama Mühendislik, Jeoloji

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

Eti Mine Works General Management, Project Report, Eskişehir/Turkey, 2013 (http://www.csb.gov.tr/db/ced/ editordosya/Eti%20Maden%20Yeni%20Atik%20Baraji% 20CED%20Raporu(2).pdf).
Bentli T., Özdemir O., Çeük M. S., Ediz N., Bor atıkları ve değerlendirilme -stratejileri, The First International Boron Symposium, Kütahya, Turkey, 250-258, 2002 http://www.maden.org.tr/resimler/ekler/c4ea5258ef3fb3f_ ek.pdf.
Kavas K., Emrullahoğlu, Ö. F., Seydişehir kırmızı çamuru ve Kırka bor atıklannın endüstriyel hammadde olarak kullanımı, LButı Anadolu Hammadde Kaynakları Sempozyumu, TMMOB Jeoloji Mühendisleri Odası, İzmir, 216-225, 1999.
Genç S., Sevinç V., Özşeker A., Çakı M., Etibank Kırka boraks işletmesi konsantratör atığının sır hammaddesi olarak değerlendirilmesi, 4. Seramik Kongresi. Türk Seramik Derneği Yayınları No: 20 Eds Turan, Kara&Pfltun, Eskişehir, 119-124, 1998.
Kavas T., Christogerou A., Pontikes Y., Angelopoulos G. N., Valorisation of different types of boron-containing wastes for the production of lightweight aggregates, J. Hazard. Mater., 185 (2-3), 1381-1389, 2011.
Özdemir M., Öztürk N. U., Utilization of clay wastes containing boron as cement additives, Cem. Concr. Res., 33 (10), 1659-1661, 2003.
Sönmez E., Özdağ H., Özler A., Sümer G., Kırka boraks işletmesi atık killerinin seramik endüstrisinde kullanılabilirliğinin araştırılması, Türkiye 13. Madencilik Kongresi, TMMOB Maden Mühendisleri Odası Istanbul, 561-566, 1993.
Sönmez E., Yorulmaz S., Kırka boraks işletmesi atık killerinin tuğla yapımında kullanılabilirliğinin araştırılması, Endüstriyel Hammaddeler Sempozyumu, TMMOB Maden Mühendisleri Odası, İzmir, 163-168, 1995
Ediz N, Özdag H., Kırka boraks işletmesi atık killerinin tuğla yapımında kullanılabilirliğinin araştırılması, TMMOB Madencilik Dergisi, Cilt 34, Sayı 4, Ankara, 27- 34, 1995
Wang R. M., Zheng S. R., Zhen Y. P., Polymer Matrix Composites and Technology, Woodhead Publishing in Materials, 2011.
Acikbas G., Gocmez H., Characterization and properties of industrial polymer matrix composite sanitarywares, Materials Testing, 59 (11-12), 1067-1074, 2017.
Menezes R. R., Santana L. N. L., Neves and Ferreira H. C., Recycling of Mine Wastes as Ceramic Raw Materials: An Alternative to Avoid Environmental Contamination, Environmental Contamination, Dr. Jatin Srivastava (Ed.), InTech, 199-220, 2012.
Ashori A., Hybrid composites from waste materials, J. Polym. Environ.,18, 65–70, 2010.
Medupin R. O., Abubakre O. K., Ukoba O., Imoisili P. E., Mechanical properties of wood waste reinforced polymer matrix composites, Am. Chem. Sci. J. 3 (4), 507–513, 2013.
Koleva M., Zheglova A., Fidancevska E., Vassilev V., Composites Containing Waste Materials, INTECH Open Access Publisher, Croatia, 2011.
Sathiyamoorthy M., Thanappan S., Senthilkumar M., Utilization of waste rubber tires as an additional ingredient of concrete mixtures, Int. J. Eng. Res. Ind. Appl. 4 (I), 335–350, 2011.
Tunsan M., The use of waste materials in asphalt concrete mixtures, Waste Manag. Res., 21 (2), 83–92, 2003.
Calis Acikbas N., Acikbas G., Epoxy matrix composites containing urea formaldehyde waste particulate filler, waste and biomass valorization, 8, 669-678, 2017.
Vassilev V., Fidancevska E., Milosevski M., Parvanov S., Milosevski D., Hristova-Vasileva T., Composites based on industrial wastes IV. Production of porous composites from Fe– Ni slag and waste glass. J. Univ. Chem. Technol. Metall., 42 (4), 369–376, 2007.
Thomas C., Borges P. H. R., Panzera T. H., Cimentada A., Lombillo I., Epoxy composites containing CFRP powder wastes, Compos., B 59, 260–268, 2014.
Acikbas G., Ozcan S., Calis Acikbas N., Production and characterization of a hybrid polymer matrix composite, Polym. Compos., 26 Haziran 2017.
Acikbas G., Göçmez H., Polyester matrisli kompozit özeliklerine vitrifiye seramik sağlık gereci atık miktarının etkisi, APJES, 5 (3), 138-145, 2017.
Acikbas G., Seramik sağlık gereçlerine alternatif polimer matrisli kompozit malzemelerin geliştirilmesi ve karakterizasyonu, Yayınlanmış Doktora Tezi, Dumlupınar Üniversitesi, Fen Bilimleri Enstitüsü, Kütahya, Türkiye, 2016.
Uygunoglu T., Gunes I., Brostow W., Physical and Mechanical Properties of Polymer Composites with High Content of Wastes Including Boron, Mater. Res., 18 (6), 1188-1196, 2015.
Uygunoglu T., Brostow W., Gunes I., Wear and friction of composites of an epoxy with boron containing wastes, Polímeros, 25 (3), 271-276, 2015.
Kadiyala A. K., Bijwe J., Surface lubrication of graphite fabric reinforced epoxy composites with nano- and micro-sized hexagonal boron nitride, Wear, 301 (1-2), 2013.
McCook N. L., Boesl B., Burris D. L., Sawyer W. G., Epoxy, ZnO, and PTFE nanocomposite: Friction and wear optimization, Tribol. Lett., 22 (3), 2006.
Kurahattia R. V., Surendranatha, A. O., Kumar A., Ramesh V., Wadagerid C. S., Auradie V., Korif S. A., Dry sliding wear behaviour of epoxyreinforced with nano zro2 particles, Procedia Mater. Sci., 5, 274-280, 2014.
Açıkbaş G., Çalış Açıkbaş N., İkizek E., Özel M., Eker A. S., Characterization of Green Epoxy Matrix Composites Filled with Ceramic Wastes, ISITES2014 2nd International symposium on innovative technologies in engineering and science proceeding book, Karabük, Turkey, 597–606, 18–20 June 2014.
Basu B., Kalin M., Tribology of Ceramics and Composites: Materials Science Perspective, John Wiley & Sons, Inc., USA and American Ceramic Society, 2011.
Xu, J. and Kato, K., Formation of tribochemical layer of ceramics sliding in water and its role for low friction, Wear, 245 (1–2), 61-75, 2000.
Wimmer M. A., Sprecher C., Hauert R., Tager G., Fischer A., Tribochemical reaction on metal-on-metal hip joint bearings: A comparison between in-vitro and in-vivo results, Wear, 255, 1007-1014, 2003.
Schöfer J., Rehbein P., Stolz U., Löhe D., Zum Gahr, K. H., Formation of tribochemical films and white layers on self-mated bearing steel surfaces in boundary lubricated sliding contact, Wear, 248 (1–2), 7-15, 2001.
Durand J. M., Vardavoulias M., Jeandin M., Role of reinforcing ceramic particles in the wear behavior of polymer -based model composites, Wear, 181–183, 833–839, 1995

APA	YAMAN ISLAK B, Calis Acikbas N (2018). Dry sliding behaviour of boron waste reinforced epoxy matrix composites. , 63 - 73. 10.30728/boron.343608
Chicago	YAMAN ISLAK Bilge,Calis Acikbas Nurcan Dry sliding behaviour of boron waste reinforced epoxy matrix composites. (2018): 63 - 73. 10.30728/boron.343608
MLA	YAMAN ISLAK Bilge,Calis Acikbas Nurcan Dry sliding behaviour of boron waste reinforced epoxy matrix composites. , 2018, ss.63 - 73. 10.30728/boron.343608
AMA	YAMAN ISLAK B,Calis Acikbas N Dry sliding behaviour of boron waste reinforced epoxy matrix composites. . 2018; 63 - 73. 10.30728/boron.343608
Vancouver	YAMAN ISLAK B,Calis Acikbas N Dry sliding behaviour of boron waste reinforced epoxy matrix composites. . 2018; 63 - 73. 10.30728/boron.343608
IEEE	YAMAN ISLAK B,Calis Acikbas N "Dry sliding behaviour of boron waste reinforced epoxy matrix composites." , ss.63 - 73, 2018. 10.30728/boron.343608
ISNAD	YAMAN ISLAK, Bilge - Calis Acikbas, Nurcan. "Dry sliding behaviour of boron waste reinforced epoxy matrix composites". (2018), 63-73. https://doi.org/10.30728/boron.343608

APA	YAMAN ISLAK B, Calis Acikbas N (2018). Dry sliding behaviour of boron waste reinforced epoxy matrix composites. BOR DERGİSİ, 3(2), 63 - 73. 10.30728/boron.343608
Chicago	YAMAN ISLAK Bilge,Calis Acikbas Nurcan Dry sliding behaviour of boron waste reinforced epoxy matrix composites. BOR DERGİSİ 3, no.2 (2018): 63 - 73. 10.30728/boron.343608
MLA	YAMAN ISLAK Bilge,Calis Acikbas Nurcan Dry sliding behaviour of boron waste reinforced epoxy matrix composites. BOR DERGİSİ, vol.3, no.2, 2018, ss.63 - 73. 10.30728/boron.343608
AMA	YAMAN ISLAK B,Calis Acikbas N Dry sliding behaviour of boron waste reinforced epoxy matrix composites. BOR DERGİSİ. 2018; 3(2): 63 - 73. 10.30728/boron.343608
Vancouver	YAMAN ISLAK B,Calis Acikbas N Dry sliding behaviour of boron waste reinforced epoxy matrix composites. BOR DERGİSİ. 2018; 3(2): 63 - 73. 10.30728/boron.343608
IEEE	YAMAN ISLAK B,Calis Acikbas N "Dry sliding behaviour of boron waste reinforced epoxy matrix composites." BOR DERGİSİ, 3, ss.63 - 73, 2018. 10.30728/boron.343608
ISNAD	YAMAN ISLAK, Bilge - Calis Acikbas, Nurcan. "Dry sliding behaviour of boron waste reinforced epoxy matrix composites". BOR DERGİSİ 3/2 (2018), 63-73. https://doi.org/10.30728/boron.343608