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Biomaterials, Medical Devices, and Artificial Organs Volume 14, 1986 - Issue 3-4
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Original Article

The Effect of Post-Sintering Heat Treatments on the Tensile Properties of Ti-6A1–4V Alloy

Stephen D. Cook Biomaterials Laboratory Department of Orthopaedic Surgery, Tulane University Medical School, New Orleans, Louisiana, 70112; Veterans Administration Medical Center, Rehabilitation Research and Development, New Orleans, Louisiana, 70146
,
Ronald C. Anderson Biomaterials Laboratory Department of Orthopaedic Surgery, Tulane University Medical School, New Orleans, Louisiana, 70112; Veterans Administration Medical Center, Rehabilitation Research and Development, New Orleans, Louisiana, 70146
,
Nisra Thongpreda Biomaterials Laboratory Department of Orthopaedic Surgery, Tulane University Medical School, New Orleans, Louisiana, 70112; Veterans Administration Medical Center, Rehabilitation Research and Development, New Orleans, Louisiana, 70146
&
Ray J. Haddad Biomaterials Laboratory Department of Orthopaedic Surgery, Tulane University Medical School, New Orleans, Louisiana, 70112; Veterans Administration Medical Center, Rehabilitation Research and Development, New Orleans, Louisiana, 70146
Pages 167-180 | Published online: 11 Jul 2009

References

  • Anderson R.C., Cook S.D., Weinstein A.M., Haddad R.J. An Evaluation of Skeletal Attachment to LTI Carbon, Porous Titanium and Carbon Coated Porous Titanium Implants. Clin. Orthop. 1984; 182: 242–257
  • Bobyn J.D., Pilliar R.M., Cameron H.U., Weatherly G.C. The Optimum Pore Size for the Fixation of Porous-Surfaced Metal Implants by the Ingrowth of Bone. Clin. Orthop. 1980; 150: 263–270
  • Cameron H.N., Pilliar R.M., MacNab J. The Rate of Bone Ingrowth Into Porous Metal. J. Biomed. Mats. Res. 1976; 10: 295–302
  • Clemow A. J.T., Weinstein A.M., Klawitter J.J., Koeneman J., Anderson J. Interface Mechanics of Porous Titanium Implants. J. Biomed. Mats. Res. 1981; 15: 73–82
  • Cook S.D., Walsh K.A., Haddad R.J. Interface Mechanics and Bone Growth into Porous Co-Cr-Mo Alloy Implants. Clin. Orthop. 1980; 193: 271–280
  • Nilles J.L., Coletti J.M., Wilson C. Biomechanical Evaluation of Bone-Porous Material Interfaces. J. Biomed. Mats. Res. 1973; 7: 231–251
  • Nilles J. L., Lapitsky M. Biomechanical Investigations of Bone-Porous Carbon and Porous Metal Interfaces. J. Biomed. Mats. Res. 1973; 4: 63–84
  • Welsh R.P., Pilliar R.M., MacNab J. Surgical Implants. The Role of Surface Porosity in Fixation to Bone and Acrylic. J. Bone Joint Surg. 1971; 53A(No. 5)963–977
  • Murray G. A.W., Semple J. C. Transfer of Tensile Loads from a Prosthesis to Bone Using Porous Titanium. J. Bone Joint Surg. 1981; 63B(No. 1)138–141
  • Weinstein A.M., Klawitter J.J., Koeneman J.B. Structure Property Relationships for Porous Ti-6A1–4V. Transaction of the Third Annual Meeting of the Society for Biomaterials. New Orleans, Louisiana April, 1977; 40
  • Cook S.D., Georgette F.S., Skinner H.B., Haddad R.J. The Fatigue Properties of Carbon Coated and Porous Coated Ti-6A1–4V Alloy. J. Biomed. Mats. Res. 1984; 18: 497–512
  • Stubbington C. A., Bowen A. W. Improvements In the Fatigue Strength of Ti-6A1-AV Through Microstructural Control. J. Biomed. Mats. Res. 1974; 9: 941–947
  • Smith C. J.E., Hughes A. N. The Corrosion Fatigue Behavior of Titanium-6 w/o Aluminum-4 w/o Vanadium Alloy. Engr. in Medicine. 1978; 7(3)158–171
  • Bartlow L. J. Effect of Microstructure on the Fatigue Properties of Ti-6A1–4V Bar Fatigue at High Temperature. ASTM 1968, STP 459, ASTM
  • Yue S., Pilliar R.M., Weatherly G. Heat Treatments to Improve the Fatigue Resistance of Porous Coated Ti-6A1–4V Implants. Transactions of the Eighth Annual Meeting of the Society for Biomaterials. April, 1982; 93
  • Yue S., Pilliar R.M., Weatherly G. The Fatigue Strength of Porous-Coated Ti-6%A1–4%V Implant Alloy. J. Biomed. Mats. Res. 1984; 18: 1043–1058
  • Stubbington C. A., Bowen A. W. The Effect of Section Size on the Fatigue Properties of Ti-6A1–4V Bars. Titanium Science and Technology, R.I. Jaffee, J.H.M. Burte. Plenum Press, New York 1973
  • Irving P. E., Beevers C. J. Microstructural Influences on Fatigue Crack Growth in Ti-6A1–4V. Materials Science and Engineering 1974; 14: 229–238
  • Greenfield M.A., Pierce C.M., Hall J.A. The Effect of Microstructure on the Control of Mechanical Properties in Alpha/Beta Titanium Alloys. Titanium Science and Technology, R.I. Jaffee, J.H.M. Burte. Plenum Press, New York 1973
  • Crichlow C. J., Walter J., Lunde T. High Cycle Fatigue Properties of Titanium in Aircraft Applications. Titanium Science and Technology, R.I. Jaffee, J.H.M. Burte. Plenum Press, New York 1973
  • Eylon D., Pierce C. M. Effect of Microstructure on Notch Fatigue Properties of Ti-6A1–4V. Metallurgical Transactions 1976; 7A: 111–121

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