INVESTIGATION OF WEAR BEHAVIORS OF PROSTHETIC MATERIALS ON BALL-DISC EXPERIMENT
Yıl 2018,
Cilt: 36 Sayı: 4, 1175 - 1180, 01.12.2018
Harun Akkuş
Tahsin Kamış
Hayrettin Düzcükoğlu
Öz
In this study; The abrasion performances of uncoated Ti-6Al-4V and uncoated AISI 316 L stainless steel material were investigated in a ball-disc test apparatus. The experiments were carried out with 100Cr6 balls 10 mm in diameter in dry and sodium hyaluronate media to give a 500 m path under the influence of 7,5 N and 10 N forces at shear rates of 1-1,5-2 m/s. The wear quantities of the test specimens were examined for the ball and disc. As a result, it is observed that Ti-6Al-4V material is more resistant to abrasion than stainless steel material. The erosions in the medium added with sodium hyaluronate are very small compared to the dry medium and the erosion is reduced by 30-35% compared to the dry medium.
Kaynakça
- ⦁ Bischoff, U., Freeman, M., Smith, D., Tuke, M., Gregson, P.,1994. Wear induced by motion between bone and titanium or cobalt-chrome alloys. Bone & Joint Journal, 76 (5), 713-716.
- ⦁ Hirakawa, K., Bauer, T.W., Stulberg, B.N., Wilde, A.H., Secic, M., 1996. Characterization and comparison of wear debris from failed total hip implants of different types. J Bone Joint Surgam, 78 (8), 1235-1243.
- ⦁ Gümüşderelioğlu, M., 2002. Biomaterials. Bilim ve Teknik Magazine, July special issue.
- ⦁ Bowsher, J., Shelton, J., 2001. A hip simulator study of the influence of patient activity level on the wear of crosslinked polyethylene under smooth and roughened femoral conditions. Wear, 250 (1), 167-179.
- ⦁ Li, C., Bell, T., 2004. Sliding wear properties of active screen plasma nitrided 316 austenitic stainless steel. Wear, 256 (11), 1144-1152.
- ⦁ Rodriguez, R., 2004. The Sprint Database of Ion Implantation Centers. European Community Programme for Innovation and Technology Transfer.
- ⦁ Kirkpatrick, C., Wagner, M., Kohler, H., Bittinger, F., Otto, M., Klein, C., 1997. The cell and molecular biological approach to biomaterial research: a perspective. Journal of materials science: Materials in medicine, 8 (3), 131-141.
- ⦁ Zhao, Q., Zhai, G.-J., Ng, D., Zhang, X.Z., Chen, Z.Q., 1999. Surface modification of Al2O3 bioceramic by NH+ 2 ion implantation. Biomaterials, 20 (6), 595-599.
- ⦁ Zhecheva, A., Sha, W., Malinov, S., Long, A., 2005. Enhancing the microstructure and properties of titanium alloys through nitriding and other surface engineering methods. Surface and Coatings Technology, 200 (7), 2192-2207.
- ⦁ Waddell, D.D., Bricker, D.C., 2007. Total knee replacement delayed with Hylan GF20 use in patients with grade IV osteoarthritis. Journal of managed care pharmacy, 13 (2), 113-121.
- ⦁ Ninomi, M., 1998. Mechanical properties of biomedical titanium alloys. Materials Science and Engineering: A, 243 (1), 231-236.
- [12] Jackson, M. J., Ahmed, W., 2007. Surface engineered surgical tools and medical devices. Springer Science & Business Media.
Yıl 2018,
Cilt: 36 Sayı: 4, 1175 - 1180, 01.12.2018
Harun Akkuş
Tahsin Kamış
Hayrettin Düzcükoğlu
Kaynakça
- ⦁ Bischoff, U., Freeman, M., Smith, D., Tuke, M., Gregson, P.,1994. Wear induced by motion between bone and titanium or cobalt-chrome alloys. Bone & Joint Journal, 76 (5), 713-716.
- ⦁ Hirakawa, K., Bauer, T.W., Stulberg, B.N., Wilde, A.H., Secic, M., 1996. Characterization and comparison of wear debris from failed total hip implants of different types. J Bone Joint Surgam, 78 (8), 1235-1243.
- ⦁ Gümüşderelioğlu, M., 2002. Biomaterials. Bilim ve Teknik Magazine, July special issue.
- ⦁ Bowsher, J., Shelton, J., 2001. A hip simulator study of the influence of patient activity level on the wear of crosslinked polyethylene under smooth and roughened femoral conditions. Wear, 250 (1), 167-179.
- ⦁ Li, C., Bell, T., 2004. Sliding wear properties of active screen plasma nitrided 316 austenitic stainless steel. Wear, 256 (11), 1144-1152.
- ⦁ Rodriguez, R., 2004. The Sprint Database of Ion Implantation Centers. European Community Programme for Innovation and Technology Transfer.
- ⦁ Kirkpatrick, C., Wagner, M., Kohler, H., Bittinger, F., Otto, M., Klein, C., 1997. The cell and molecular biological approach to biomaterial research: a perspective. Journal of materials science: Materials in medicine, 8 (3), 131-141.
- ⦁ Zhao, Q., Zhai, G.-J., Ng, D., Zhang, X.Z., Chen, Z.Q., 1999. Surface modification of Al2O3 bioceramic by NH+ 2 ion implantation. Biomaterials, 20 (6), 595-599.
- ⦁ Zhecheva, A., Sha, W., Malinov, S., Long, A., 2005. Enhancing the microstructure and properties of titanium alloys through nitriding and other surface engineering methods. Surface and Coatings Technology, 200 (7), 2192-2207.
- ⦁ Waddell, D.D., Bricker, D.C., 2007. Total knee replacement delayed with Hylan GF20 use in patients with grade IV osteoarthritis. Journal of managed care pharmacy, 13 (2), 113-121.
- ⦁ Ninomi, M., 1998. Mechanical properties of biomedical titanium alloys. Materials Science and Engineering: A, 243 (1), 231-236.
- [12] Jackson, M. J., Ahmed, W., 2007. Surface engineered surgical tools and medical devices. Springer Science & Business Media.