Use Of Stainless Steel Implants In Facial Bone Reconstruction

1995 ◽  
Vol 28 (2) ◽  
pp. 341-349
Author(s):  
William R. Panje ◽  
Hugh E. Hetherington
Keyword(s):  
Stainless Steel ◽  
Bone Reconstruction ◽  
Facial Bone

scholarly journals Tissue-engineered autologous grafts for facial bone reconstruction

2016 ◽  
Vol 8 (343) ◽  
pp. 343ra83-343ra83 ◽  
Author(s):  
Sarindr Bhumiratana ◽  
Jonathan C. Bernhard ◽  
David M. Alfi ◽  
Keith Yeager ◽  
Ryan E. Eton ◽  
...  
Keyword(s):  
Bone Reconstruction ◽  
Facial Bone ◽  
Autologous Grafts

Bioresorbable screws for facial bone reconstruction: A pilot study in rabbits

1994 ◽  
Vol 104 (5) ◽  
pp. 556-561 ◽  
Author(s):  
Robert M. Kellman ◽  
Sean C. Huckins ◽  
Jennifer King ◽  
David Humphrey ◽  
Lawrence Marentette ◽  
...  
Keyword(s):  
Pilot Study ◽  
Bone Reconstruction ◽  
Facial Bone

Facial bone reconstruction with prefabricated vascularized calvarium flaps in children and young adults: Advantages and long-term results

2016 ◽  
Vol 44 (12) ◽  
pp. 1880-1888 ◽  
Author(s):  
Eva Meia Rüegg ◽  
Paul Gniadek ◽  
Ali Modarressi ◽  
Denise Baratti-Mayer ◽  
Brigitte Pittet-Cuénod
Keyword(s):  
Young Adults ◽  
Long Term Results ◽  
Bone Reconstruction ◽  
Facial Bone ◽  
Children And Young Adults

scholarly journals Facial Bone Reconstruction Using both Marine or Non-Marine Bone Substitutes: Evaluation of Current Outcomes in a Systematic Literature Review

Marine Drugs ◽  
2018 ◽  
Vol 16 (1) ◽  
pp. 27 ◽  
Author(s):  
Marco Cicciù ◽  
Gabriele Cervino ◽  
Alan Herford ◽  
Fausto Famà ◽  
Ennio Bramanti ◽  
...  
Keyword(s):  
Literature Review ◽  
Systematic Literature Review ◽  
Bone Substitutes ◽  
Bone Reconstruction ◽  
Facial Bone

NiAl precipitation in Fe-12w/o Cr-5w/o Ni-4w/o Al

1983 ◽  
Vol 41 ◽  
pp. 202-203
Author(s):  
L.E. Murr ◽  
J.S. Dunning ◽  
S. Shankar
Keyword(s):  
Solid Solution ◽  
Stainless Steel ◽  
Stainless Steels ◽  
Alloy Composition ◽  
Chromium Content ◽  
Scale Up ◽  
Optical Metallography ◽  
Property Evaluation ◽  
310 Stainless Steel ◽  
Microstructural Studies

Aluminum additions to conventional 18Cr-8Ni austenitic stainless steel compositions impart excellent resistance to high sulfur environments. However, problems are typically encountered with aluminum additions above about 1% due to embrittlement caused by aluminum in solid solution and the precipitation of NiAl. Consequently, little use has been made of aluminum alloy additions to stainless steels for use in sulfur or H2S environments in the chemical industry, energy conversion or generation, and mineral processing, for example.A research program at the Albany Research Center has concentrated on the development of a wrought alloy composition with as low a chromium content as possible, with the idea of developing a low-chromium substitute for 310 stainless steel (25Cr-20Ni) which is often used in high-sulfur environments. On the basis of workability and microstructural studies involving optical metallography on 100g button ingots soaked at 700°C and air-cooled, a low-alloy composition Fe-12Cr-5Ni-4Al (in wt %) was selected for scale up and property evaluation.

Comparison of Recovery and Recrystallization in Stainless Steel Following Plane-Wave Shock Loading and Explosive Forming

1970 ◽  
Vol 28 ◽  
pp. 428-429 ◽  
Author(s):  
J. A. Korbonski ◽  
L. E. Murr
Keyword(s):  
Stainless Steel ◽  
Shock Loading ◽  
Pressure Pulse ◽  
Shock Pressure ◽  
304 Stainless Steel ◽  
Strain Rates ◽  
Two Dimensional ◽  
Aisi 304 Stainless Steel ◽  
Aisi 304 ◽  
Explosive Forming

Comparison of recovery rates in materials deformed by a unidimensional and two dimensional strains at strain rates in excess of 104 sec.−1 was performed on AISI 304 Stainless Steel. A number of unidirectionally strained foil samples were deformed by shock waves at graduated pressure levels as described by Murr and Grace. The two dimensionally strained foil samples were obtained from radially expanded cylinders by a constant shock pressure pulse and graduated strain as described by Foitz, et al.

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