A.A. Kychkin scite author profile

A.A. Kychkin

5Publications

7Citation Statements Received

93Citation Statements Given

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Affiliations

Siberian Branch of the Russian Academy of Sciences, Institute of Physico-Technical Problems of the North named VP Larionov, Russian Academy of Sciences

Publications

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Effect of Borpolymer on Mechanical and Structural Parameters of Ultra-High Molecular Weight Polyethylene

et al. 2021

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The paper presents the results of studying the effect of borpolymer (BP) on the mechanical properties, structure, and thermodynamic parameters of ultra-high molecular weight polyethylene (UHMWPE). Changes in the mechanical characteristics of polymer composites material (PCM) are confirmed and complemented by structural studies. X-ray crystallography (XRC), differential scanning calorimetry (DSC), scanning electron microscopy (SEM), and infrared spectroscopy (IR) were used to study the melting point, morphology and composition of the filler, which corresponds to the composition and data of the certificate of the synthesized BP. Tensile and compressive mechanical tests were carried out in accordance with generally accepted standards (ASTM). It is shown that BP is an effective modifier for UHMWPE, contributing to a significant increase in the deformation and strength characteristics of the composite: tensile strength of PCM by 56%, elongation at break by 28% and compressive strength at 10% strain by 65% compared to the initial UHMWPE, due to intensive changes in the supramolecular structure of the matrix. Structural studies revealed that BP does not chemically interact with UHMWPE, but due to its high adhesion to the polymer, it acts as a reinforcing filler. SEM was used to establish the formation of a spherulite supramolecular structure of polymer composites.

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Influence of ultrafine silicon carbide powders on the properties of epoxy resin

Kychkin

Anan'eva

Таnkоva

et al. 2019

Procedia Structural Integrity

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Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics

et al. 2021

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A quite simple method is proposed for the assessment of extremely cold subarctic climate environment destruction of the basalt fiber reinforced epoxy (BFRE) rebar. The method involves the comparison of experimentally obtained long-term moisture uptake kinetic curves of unexposed and exposed BFRP rebars. A moisture uptake test was carried out at the temperature of 60 °C and relative humidity of 98 ± 2% for 306 days. The plasticization can be neglected because of low-level moisture saturation (<0.41% wt.); the swelling and structural relaxation of the polymer network can be neglected due to the high fiber content of BFRP rebar; moisture diffusion into the basalt fibers can be neglected since it is a much lesser amount than in the epoxy binder. These assumptions made it possible to build a three-stage diffusion model. It is observed that an increase in the density of defects with an increase in the diameter of the BFRP rebar is the result of the technology of manufacturing a periodic profile. The diffusion coefficient of the BFRP rebar with a 6, 10, or 18 mm diameter increased at an average of 82.7%, 56.7%, and 30%, respectively, after exposure to the climate of Yakutsk during 28 months, whereas it was known that the strength indicators had been increased.

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Research of the Effect of an Extreme Cold Climate on the Properties of Basalt Plastic Rods

Кычкин¹,

Попов²,

Kychkin³

2020

Izvestiya of SSC RAS

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This article presents the results of studies of the infl uence of an extremely cold climate on the physicomechanical properties of basalt plastic rods of a periodic profi le. Changes in mechanical parameters were determined for the initial and exposed samples of basalt plastic reinforcement. After exposure in Yakutsk, an increase in strength properties by 4-12% was found, depending on the diameter of the rods. The results of thermophysical studies allow us to justify the high stability of the BPA in terms of thermal expansion.

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Effect of abiogenic factors on properties of basalt reinforced plastic rebars under various climatic conditions

Kychkin

Golikov

Кычкин

et al. 2020

Procedia Structural Integrity

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A.A. Kychkin

Effect of Borpolymer on Mechanical and Structural Parameters of Ultra-High Molecular Weight Polyethylene

Influence of ultrafine silicon carbide powders on the properties of epoxy resin

Assessment of Extremely Cold Subarctic Climate Environment Destruction of the Basalt Fiber Reinforced Epoxy (BFRE) Rebar Using Its Moisture Uptake Kinetics

Research of the Effect of an Extreme Cold Climate on the Properties of Basalt Plastic Rods

Effect of abiogenic factors on properties of basalt reinforced plastic rebars under various climatic conditions

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