The Experts below are selected from a list of 10728 Experts worldwide ranked by ideXlab platform
S. D. Shemelin - One of the best experts on this subject based on the ideXlab platform.
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Characteristics of Reinforced Ultra-High Molecular Weight Polyethylene During Its Ballistic Penetration
Journal of Applied Mechanics and Technical Physics, 2020Co-Authors: A. A. Shtertser, B. S. Zlobin, V. V. Kiselev, S. D. Shemelin, P. A. BukatnikovAbstract:Bulk samples of pure ultra-high molecular weight polyethylene and bulk samples reinforced with metal interlayers (steel meshes and penetrated titanium plates) are obtained by cyclic Impact Compaction. Experiments are carried out in which the properties of compacts made of ultrahigh molecular weight polyethylene with and without metal interlayers are studied during penetration by a lead shot whose pellets (8 mm in diameter) move at a velocity of approximately 370 m/s. The penetration depth of a pellet into a compact is experimentally determined. To estimate the penetration depth of a spherical body into a polymer, a model is proposed that describes the motion of a sphere in this medium.
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Impact Compaction of ultra high molecular weight polyethylene
Journal of Physics: Conference Series, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. ShemelinAbstract:Ultra high molecular weight polyethylene (UHMWPE) is a partially crystalline polymer with unique physical and mechanical characteristics. Therefore it finds a wide use in present-day mechanical engineering. Experiments on Impact Compaction of UHMWPE granules were performed on the special facility designed for consolidation of powders. Bulk samples were made out of GUR 4150 powder with molecular weight of 9.2106 g/mol. The method of Impact Compaction permits to make not only pure UHMWPE compacts, but material with micro- and nano-sized additions as well, and produce composites with reinforcing metal structures.
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cyclic Impact Compaction of ultra high molecular weight polyethylene powder
Journal of Applied Mechanics and Technical Physics, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. Shemelin, V A Poluboyarov, A A ZhdanokAbstract:Bulk specimens of GUR 4150 ultra-high-molecular-weight polyethylene with a molar mass of 9.2 · 106 g/mol are obtained by cyclic Impact Compaction. During Compaction, the material remains in the solid state, which ensures the preservation of the crystalline phase with a volume fraction of up to 66%. The strength properties of the specimens are not inferior to those of the products obtained using the industrial hot molding process. It is shown that the method described here is suitable for producing compacts with micro- and nanosized additives.
B. S. Zlobin - One of the best experts on this subject based on the ideXlab platform.
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Characteristics of Reinforced Ultra-High Molecular Weight Polyethylene During Its Ballistic Penetration
Journal of Applied Mechanics and Technical Physics, 2020Co-Authors: A. A. Shtertser, B. S. Zlobin, V. V. Kiselev, S. D. Shemelin, P. A. BukatnikovAbstract:Bulk samples of pure ultra-high molecular weight polyethylene and bulk samples reinforced with metal interlayers (steel meshes and penetrated titanium plates) are obtained by cyclic Impact Compaction. Experiments are carried out in which the properties of compacts made of ultrahigh molecular weight polyethylene with and without metal interlayers are studied during penetration by a lead shot whose pellets (8 mm in diameter) move at a velocity of approximately 370 m/s. The penetration depth of a pellet into a compact is experimentally determined. To estimate the penetration depth of a spherical body into a polymer, a model is proposed that describes the motion of a sphere in this medium.
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Impact Compaction of ultra high molecular weight polyethylene
Journal of Physics: Conference Series, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. ShemelinAbstract:Ultra high molecular weight polyethylene (UHMWPE) is a partially crystalline polymer with unique physical and mechanical characteristics. Therefore it finds a wide use in present-day mechanical engineering. Experiments on Impact Compaction of UHMWPE granules were performed on the special facility designed for consolidation of powders. Bulk samples were made out of GUR 4150 powder with molecular weight of 9.2106 g/mol. The method of Impact Compaction permits to make not only pure UHMWPE compacts, but material with micro- and nano-sized additions as well, and produce composites with reinforcing metal structures.
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cyclic Impact Compaction of ultra high molecular weight polyethylene powder
Journal of Applied Mechanics and Technical Physics, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. Shemelin, V A Poluboyarov, A A ZhdanokAbstract:Bulk specimens of GUR 4150 ultra-high-molecular-weight polyethylene with a molar mass of 9.2 · 106 g/mol are obtained by cyclic Impact Compaction. During Compaction, the material remains in the solid state, which ensures the preservation of the crystalline phase with a volume fraction of up to 66%. The strength properties of the specimens are not inferior to those of the products obtained using the industrial hot molding process. It is shown that the method described here is suitable for producing compacts with micro- and nanosized additives.
A. A. Shtertser - One of the best experts on this subject based on the ideXlab platform.
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Characteristics of Reinforced Ultra-High Molecular Weight Polyethylene During Its Ballistic Penetration
Journal of Applied Mechanics and Technical Physics, 2020Co-Authors: A. A. Shtertser, B. S. Zlobin, V. V. Kiselev, S. D. Shemelin, P. A. BukatnikovAbstract:Bulk samples of pure ultra-high molecular weight polyethylene and bulk samples reinforced with metal interlayers (steel meshes and penetrated titanium plates) are obtained by cyclic Impact Compaction. Experiments are carried out in which the properties of compacts made of ultrahigh molecular weight polyethylene with and without metal interlayers are studied during penetration by a lead shot whose pellets (8 mm in diameter) move at a velocity of approximately 370 m/s. The penetration depth of a pellet into a compact is experimentally determined. To estimate the penetration depth of a spherical body into a polymer, a model is proposed that describes the motion of a sphere in this medium.
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Impact Compaction of ultra high molecular weight polyethylene
Journal of Physics: Conference Series, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. ShemelinAbstract:Ultra high molecular weight polyethylene (UHMWPE) is a partially crystalline polymer with unique physical and mechanical characteristics. Therefore it finds a wide use in present-day mechanical engineering. Experiments on Impact Compaction of UHMWPE granules were performed on the special facility designed for consolidation of powders. Bulk samples were made out of GUR 4150 powder with molecular weight of 9.2106 g/mol. The method of Impact Compaction permits to make not only pure UHMWPE compacts, but material with micro- and nano-sized additions as well, and produce composites with reinforcing metal structures.
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cyclic Impact Compaction of ultra high molecular weight polyethylene powder
Journal of Applied Mechanics and Technical Physics, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. Shemelin, V A Poluboyarov, A A ZhdanokAbstract:Bulk specimens of GUR 4150 ultra-high-molecular-weight polyethylene with a molar mass of 9.2 · 106 g/mol are obtained by cyclic Impact Compaction. During Compaction, the material remains in the solid state, which ensures the preservation of the crystalline phase with a volume fraction of up to 66%. The strength properties of the specimens are not inferior to those of the products obtained using the industrial hot molding process. It is shown that the method described here is suitable for producing compacts with micro- and nanosized additives.
V. V. Kiselev - One of the best experts on this subject based on the ideXlab platform.
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Characteristics of Reinforced Ultra-High Molecular Weight Polyethylene During Its Ballistic Penetration
Journal of Applied Mechanics and Technical Physics, 2020Co-Authors: A. A. Shtertser, B. S. Zlobin, V. V. Kiselev, S. D. Shemelin, P. A. BukatnikovAbstract:Bulk samples of pure ultra-high molecular weight polyethylene and bulk samples reinforced with metal interlayers (steel meshes and penetrated titanium plates) are obtained by cyclic Impact Compaction. Experiments are carried out in which the properties of compacts made of ultrahigh molecular weight polyethylene with and without metal interlayers are studied during penetration by a lead shot whose pellets (8 mm in diameter) move at a velocity of approximately 370 m/s. The penetration depth of a pellet into a compact is experimentally determined. To estimate the penetration depth of a spherical body into a polymer, a model is proposed that describes the motion of a sphere in this medium.
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Impact Compaction of ultra high molecular weight polyethylene
Journal of Physics: Conference Series, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. ShemelinAbstract:Ultra high molecular weight polyethylene (UHMWPE) is a partially crystalline polymer with unique physical and mechanical characteristics. Therefore it finds a wide use in present-day mechanical engineering. Experiments on Impact Compaction of UHMWPE granules were performed on the special facility designed for consolidation of powders. Bulk samples were made out of GUR 4150 powder with molecular weight of 9.2106 g/mol. The method of Impact Compaction permits to make not only pure UHMWPE compacts, but material with micro- and nano-sized additions as well, and produce composites with reinforcing metal structures.
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cyclic Impact Compaction of ultra high molecular weight polyethylene powder
Journal of Applied Mechanics and Technical Physics, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. Shemelin, V A Poluboyarov, A A ZhdanokAbstract:Bulk specimens of GUR 4150 ultra-high-molecular-weight polyethylene with a molar mass of 9.2 · 106 g/mol are obtained by cyclic Impact Compaction. During Compaction, the material remains in the solid state, which ensures the preservation of the crystalline phase with a volume fraction of up to 66%. The strength properties of the specimens are not inferior to those of the products obtained using the industrial hot molding process. It is shown that the method described here is suitable for producing compacts with micro- and nanosized additives.
A A Zhdanok - One of the best experts on this subject based on the ideXlab platform.
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cyclic Impact Compaction of ultra high molecular weight polyethylene powder
Journal of Applied Mechanics and Technical Physics, 2017Co-Authors: B. S. Zlobin, A. A. Shtertser, V. V. Kiselev, S. D. Shemelin, V A Poluboyarov, A A ZhdanokAbstract:Bulk specimens of GUR 4150 ultra-high-molecular-weight polyethylene with a molar mass of 9.2 · 106 g/mol are obtained by cyclic Impact Compaction. During Compaction, the material remains in the solid state, which ensures the preservation of the crystalline phase with a volume fraction of up to 66%. The strength properties of the specimens are not inferior to those of the products obtained using the industrial hot molding process. It is shown that the method described here is suitable for producing compacts with micro- and nanosized additives.
