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Biomaterials, Medical Devices, and Artificial Organs Volume 2, 1974 - Issue 1
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Original Article

The Behavior of Isotropic Pyrolytic Carbons under Cyclic Loading

Hong S. Shim Gulf Electronic Systems Gulf Energy & Environmental Systems Co, San Diego, California, 92138
Pages 55-64 | Received 17 Jan 1974, Published online: 11 Jul 2009

Citations (21)

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Read on this site (2)

Hong S Shim. (1976) The Mechanical Behavior of LTI Carbon Dental Implants. Biomaterials, Medical Devices, and Artificial Organs 4:2, pages 181-192.
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Hong S. Shim & Frederick J. Schoen. (1974) The Wear Resistance of Pure and Silicon-Alloyed Isotropic Carbons. Biomaterials, Medical Devices, and Artificial Organs 2:2, pages 103-118.
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Articles from other publishers (19)

Sameer K. Singh, Mateusz Kachel, Estibaliz Castillero, Yingfei Xue, David Kalfa, Giovanni Ferrari & Isaac George. (2023) Polymeric prosthetic heart valves: A review of current technologies and future directions. Frontiers in Cardiovascular Medicine 10.
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Gianpaolo Serino, Mattia Gusmini, Alberto Luigi Audenino, Giovanni Bergamasco, Ornella Ieropoli & Cristina Bignardi. (2021) Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production. Processes 9:2, pages 338.
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Jill S. Kawalec. 2021. Encyclopedia of Materials: Technical Ceramics and Glasses. Encyclopedia of Materials: Technical Ceramics and Glasses 533 539 .
Richard L. Li, Jonathan Russ, Costas Paschalides, Giovanni Ferrari, Haim Waisman, Jeffrey W. Kysar & David Kalfa. (2019) Mechanical considerations for polymeric heart valve development: Biomechanics, materials, design and manufacturing. Biomaterials 225, pages 119493.
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M. Hassler. 2012. Coatings for Biomedical Applications. Coatings for Biomedical Applications 75 105 .
Hongbo Zhang, Xiaoyan Deng, Tomás Francisco Cianciulli, Ze Zhang, Daniel Chappard, Jorge Alberto Lax, Maria Cristina Saccheri, Hector Jorge Redruello, Jorge Luis Jordana, Horacio Alberto Prezioso, Martin King & Robert Guidoin. (2009) Pivoting system fracture in a bileaflet mechanical valve: A case report. Journal of Biomedical Materials Research Part B: Applied Biomaterials 90B:2, pages 952-961.
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Ling Ma & George Sines. (2000) Fatigue behavior of a pyrolytic carbon. Journal of Biomedical Materials Research 51:1, pages 61-68.
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Ling Ma, George Sines & C. Barclay Gilpin. 1996. Fracture Mechanics of Ceramics. Fracture Mechanics of Ceramics 107 120 .
M A Ling, George H. Sines & C. Barclay Gilpin. (2011) Threshold Crack Size in A Pyrolytic Carbon for no Growth Under Cyclic Stress. MRS Proceedings 383.
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R. O. Ritchie, R. H. Dauskardt, W. W. Gerberich, A. Strojny & E. Lilleodden. (2011) Fracture, Fatigue and Indentation Behavior of Pyrolytic Carbon for Biomedical Applications. MRS Proceedings 383.
Crossref
R. H. Dauskardt, R. O. Ritchie, J. K. Takemoto & A. M. Brendzel. (2004) Cyclic fatigue and fracture in pyrolytic carbon‐coated graphite mechanical heart‐valve prostheses: Role of small cracks in life prediction. Journal of Biomedical Materials Research 28:7, pages 791-804.
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Don P. Giddens, Ajit P. Yoganathan & Frederick J. Schoen. (1993) Chapter 16 Prosthetic Cardiac Valves. Cardiovascular Pathology 2:3, pages 167-177.
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R. O. Ritchie, R. H. Dauskardt & F. J. Pennisi. (2004) On the fractography of overload, stress corrosion, and cyclic fatigue failures in pyrolytic‐carbon materials used in prosthetic heart‐valve devices. Journal of Biomedical Materials Research 26:1, pages 69-76.
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R. O. Ritchie, R. H. Dauskardt, Weikang Yu & A. M. Brendzel. (2004) Cyclic fatigue‐crack propagation, stress‐corrosion, and fracture‐toughness behavior in pyrolytic carbon‐coated graphite for prosthetic heart valve applications. Journal of Biomedical Materials Research 24:2, pages 189-206.
Crossref
Kazuo Inamori. 1989. Advanced Technical Ceramics. Advanced Technical Ceramics 209 222 .
Malcolm D. Silver, Paul R. Torok, Robert P. Slinger & Thomas Reif. (1988) Late strut fracture of the Beall model 105 disc valve prosthesis. The Journal of Thoracic and Cardiovascular Surgery 96:3, pages 448-453.
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Frederick J. Schoen, Jack L. Titus & Gerald M. Lawrie. (2004) Durability of pyrolytic carbon‐containing heart valve prostheses. Journal of Biomedical Materials Research 16:5, pages 559-570.
Crossref
Frederick J. Schoen, Jack L. Titus & Gerald M. Lawrie. (1982) Bioengineering aspects of heart valve replacement. Annals of Biomedical Engineering 10:3, pages 97-128.
Crossref
A. D. Haubold, H. S. Shim & J. C. Bokros. 1979. Assisted Circulation. Assisted Circulation 520 532 .

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