The Experts below are selected from a list of 93 Experts worldwide ranked by ideXlab platform
D. E. Gusev - One of the best experts on this subject based on the ideXlab platform.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic-Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic–Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:—The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
Hu Xiao-ye - One of the best experts on this subject based on the ideXlab platform.
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Research progress in carbon nanotubes/polymer Functional Composite Material
Ordnance Material Science and Engineering, 2005Co-Authors: Hu Xiao-yeAbstract:The structure and the excellent electrical, mechanical and chemical properties of carbon nanotubes were presented in this paper. The interaction mechanism between carbon nanotubes and polymer matrix was also discussed. Furthermore, the fabrication of the CNTs/Polymer Functional Composite Materials and the importance of the CNTs in the matrix were reviewed in detail.
M. Yu. Kollerov - One of the best experts on this subject based on the ideXlab platform.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic-Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic–Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:—The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
V. S. Spektor - One of the best experts on this subject based on the ideXlab platform.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic-Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic–Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:—The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
S. I. Gurtovoi - One of the best experts on this subject based on the ideXlab platform.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic-Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.
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Mechanical Properties of a Carbon Fiber Reinforced Plastic–Titanium Nickelide Functional Composite Material
Russian Metallurgy (Metally), 2019Co-Authors: M. Yu. Kollerov, S. I. Gurtovoi, A. V. Saakyan, A A Skoblin, V. S. Spektor, D. E. GusevAbstract:—The Composite Material consisting of a carbon fiber reinforced plastic matrix and reinforcing titanium nickelide elements is studied and subjected to static and cyclic three-point bending tests. At the same rigidity, the elastic deformation and the fatigue life of the Material are found to increase with the volume fraction of titanium nickelide. The developed Material can be used to produce prosthetic–orthopedic medical articles.