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Investigation of Surface Properties of CoCrMo Tibial Component Machining with Carbide Tool

Year 2018, Volume: 8 Issue: 1, 16 - 30, 15.06.2018

Erkan Bahçe , Mehmet Sami Güler Ender Emir Cihan Özel

Abstract

Due to its high strength, turning of tibial component made from CoCrMo
material used in knee prostheses is faced with high cutting forces, pinking,
vibration and tool wear. This situation both manufacturing cost and
manufacturing time. In this study, the effects of surface roughness, vibration,
surface defects and micro hardness on the number of revolutions and progress of
turning of CoCrMo material with carbide cutting tool were investigated. As a
result of the experiments, it has been found that surface roughness and defects
increase due to the increase of the progress, and the roughness decreases due
to the increase of the number of revolutions. In addition, CoCrMo alloy was
analyzed by machining with finite element processing temperature distributions
were also determined during turning.

Keywords

CoCrMo Turning MicroHardness Surface Defect Surface Raughness

References

  • 1. Akhtar W, Sun J & Chen W (2016). Effect of Machining Parameters on Surface Integrity in High Speed Milling of Super Alloy GH4169/Inconel 718. Materials and Manufacturing Processes. 620-627
  • 2. Bordin A, Ghiotti A & Bruschi S & Facchini L & Bucciotti L (2014). Machinability Characteristics of Wrought and EBM CoCrMo Alloys. In: 6th CIRP International Conference on High Performance Cutting, HPC2014, pp. 89 – 94
  • 3. Bordin A, Bruschi S & Ghiotti A (2014). The effect of cutting speed and feed rate on the surface integrity in dry turning of CoCrMo alloy. In: 2nd CIRP Conference on Surface Integrity (CSI), pp. 219 – 224
  • 4. Bruschi S, Ghiotti A & Bordin A, (2013). Effect of the Process Parameters on the Machinability Characteristics of a CoCrMo Alloy. Trans Tech Publications. Vols 554-557. 1976-1983
  • 5. Hassan M R, Mehrpouya M & Dawood S (2014). Review of the Machining Difficulties of Nickel-Titanium Based Shape Memory Alloys. Mechanics and Materials. 533-537
  • 6. Houchuan Y, Zhitong C & ZiTong Z (2015). Influence of cutting speed and tool wear on the surface integrity of the titanium alloy Ti-1023 during milling. International Journal Adv Manufacturing Technology. 1113-1126
  • 7. Karpuschewskia B & Döringa J (2016). Influence of the tool geometry on the machining of cobalt chromium femoral heads. In: The Second CIRP Conference on Biomanufacturing, pp. 67 – 71
  • 8. Jagtap K & Pawade R (2016). A Comparative Analysis of Cutting Forces in Precision Turning of Co-Cr-Mo Bio-implant Alloy in Dry and Wet Machining Environments. Advances in Intelligent Systems Research Vol. 137: 234-241
  • 9. Shokrani A, Dhokia V & Newman S T (2016). Cryogenic high speed machining of cobalt chromium alloy. In: 7th HPC 2016 – CIRP Conference on High Performance Cutting, pp. 404 – 407
  • 10. Sipos K, Lopez M & Trucco M (2008). Surface Martensite E-White Layer Produced By Adhesive Sliding Wear-Frıctıon In AISI 1065 Steel. Revista Latinoamericano de Metalurgia Materiales. 28(1), 46-50
  • 11. Song Y C, Park C H & Moriwaki T (2010). Mirror finishing of Co–Cr–Mo alloy using elliptical vibration cutting. Precision Engineering 34: 784–789
  • 12. Thakur D G, Ramamoorthy B & Vijayaraghavan L (2010). Effect of High Speed Cutting Parameters on the Surface Characteristics of Superalloy Inconel 718. In: Proceedings of the World Congress on Engineering 2010 Vol III WCE, June 30 - July 2, London, U.K., pp: 978-988
  • 13. Ulutan D & Özel T (2011). Machining induced surface integrity in titanium and nickel alloys: A review International Journal of Machine Tool & Manufacture. 250-280

CoCrMo Tibial Komponentin Karbür Takım ile İşlenmesinde Yüzey Özelliklerinin Araştırılması

Year 2018, Volume: 8 Issue: 1, 16 - 30, 15.06.2018

Erkan Bahçe , Mehmet Sami Güler Ender Emir Cihan Özel

Abstract

Yüksek
dayanımından dolayı diz protezlerinde kullanılan CoCrMo malzemesinden yapılmış
tibial bileşenin tornalanmasında büyük kesme kuvvetleri, vuruntu, titreşim ve
takım aşınması gibi olumsuzluklarla karşılaşılmaktadır. Bu durum hem imalat
maliyetini hem de imalat süresini artırmaktadır. Bu çalışmada, CoCrMo malzemesinin
karbür kesici takım ile alın tornalanmasında devir sayısının ve ilerlemenin
yüzey pürüzlülüğüne, yüzey defektlerine ve mikro sertliğe etkileri
araştırılmıştır. Deneyler sonucunda ilerlemenin artmasına bağlı olarak yüzey
pürüzlülüğü ve defektlerin arttığı, devir sayısının artmasına bağlı olarak ise
pürüzlülüğün azaldığı tespit edilmiştir. Ayrıca CoCrMo alaşımının sonlu
elamanlarla işleme analizi yapılarak tornalama boyunca sıcaklık dağılımları da
tespit edilmiştir.

Keywords

CoCrMo Tornalama Mikro Sertlik Yüzey Defekti Yüzey Pürüzlülüğü

References

  • 1. Akhtar W, Sun J & Chen W (2016). Effect of Machining Parameters on Surface Integrity in High Speed Milling of Super Alloy GH4169/Inconel 718. Materials and Manufacturing Processes. 620-627
  • 2. Bordin A, Ghiotti A & Bruschi S & Facchini L & Bucciotti L (2014). Machinability Characteristics of Wrought and EBM CoCrMo Alloys. In: 6th CIRP International Conference on High Performance Cutting, HPC2014, pp. 89 – 94
  • 3. Bordin A, Bruschi S & Ghiotti A (2014). The effect of cutting speed and feed rate on the surface integrity in dry turning of CoCrMo alloy. In: 2nd CIRP Conference on Surface Integrity (CSI), pp. 219 – 224
  • 4. Bruschi S, Ghiotti A & Bordin A, (2013). Effect of the Process Parameters on the Machinability Characteristics of a CoCrMo Alloy. Trans Tech Publications. Vols 554-557. 1976-1983
  • 5. Hassan M R, Mehrpouya M & Dawood S (2014). Review of the Machining Difficulties of Nickel-Titanium Based Shape Memory Alloys. Mechanics and Materials. 533-537
  • 6. Houchuan Y, Zhitong C & ZiTong Z (2015). Influence of cutting speed and tool wear on the surface integrity of the titanium alloy Ti-1023 during milling. International Journal Adv Manufacturing Technology. 1113-1126
  • 7. Karpuschewskia B & Döringa J (2016). Influence of the tool geometry on the machining of cobalt chromium femoral heads. In: The Second CIRP Conference on Biomanufacturing, pp. 67 – 71
  • 8. Jagtap K & Pawade R (2016). A Comparative Analysis of Cutting Forces in Precision Turning of Co-Cr-Mo Bio-implant Alloy in Dry and Wet Machining Environments. Advances in Intelligent Systems Research Vol. 137: 234-241
  • 9. Shokrani A, Dhokia V & Newman S T (2016). Cryogenic high speed machining of cobalt chromium alloy. In: 7th HPC 2016 – CIRP Conference on High Performance Cutting, pp. 404 – 407
  • 10. Sipos K, Lopez M & Trucco M (2008). Surface Martensite E-White Layer Produced By Adhesive Sliding Wear-Frıctıon In AISI 1065 Steel. Revista Latinoamericano de Metalurgia Materiales. 28(1), 46-50
  • 11. Song Y C, Park C H & Moriwaki T (2010). Mirror finishing of Co–Cr–Mo alloy using elliptical vibration cutting. Precision Engineering 34: 784–789
  • 12. Thakur D G, Ramamoorthy B & Vijayaraghavan L (2010). Effect of High Speed Cutting Parameters on the Surface Characteristics of Superalloy Inconel 718. In: Proceedings of the World Congress on Engineering 2010 Vol III WCE, June 30 - July 2, London, U.K., pp: 978-988
  • 13. Ulutan D & Özel T (2011). Machining induced surface integrity in titanium and nickel alloys: A review International Journal of Machine Tool & Manufacture. 250-280
There are 13 citations in total.

Details

Primary Language Turkish
Journal Section Review Articles
Authors

Erkan Bahçe 0000-0001-5389-5571

Mehmet Sami Güler This is me 0000-0003-0414-7707

Ender Emir This is me 0000-0003-4972-5064

Cihan Özel This is me 0000-0002-3227-6875

Publication Date June 15, 2018
Submission Date May 7, 2018
Published in Issue Year 2018 Volume: 8 Issue: 1

Cite

APA Bahçe, E., Güler, M. S., Emir, E., Özel, C. (2018). CoCrMo Tibial Komponentin Karbür Takım ile İşlenmesinde Yüzey Özelliklerinin Araştırılması. Ordu Üniversitesi Bilim Ve Teknoloji Dergisi, 8(1), 16-30.
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