V. A. Pogodin scite author profile

This article presents the results of the binder jetting technology application for the silicon nitride ceramics production. A modified version of the Plan-B 3D printer with an epoxy-based binder was used for silicon green bodies preforming. Silicon powder was pre-coated with epoxy resin, and the curing agent was added during 3-D printing of green bodies using a standard cartridge. Curing and removal of organics was carried out during the high-temperature vacuum drying of the printed preforms. Reaction-bonded silicon nitride was obtained by using pressureless sintering. An additional compaction of green bodies is proposed to reduce the porosity of green bodies and sintered ceramics. It is shown that the proposed methods allows to improve the mechanical properties of sintered specimens.

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Change in the Integral Pore Size in CCCM during Low-Temperature Oxidation

Астапов

Pogodin

2021

Russ. Metall.

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Study of Porous Ceramic Based on Silicon Nitride Prepared Using Three-Dimensional Printing Technology

et al. 2017

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CCCM Specific Surface Estimation in Process of Low-Temperature Oxidation

Pogodin¹,

Астапов²,

Rabinskiy³

2020

PTQ

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The low-temperature oxidation process of carbon-carbon composite materials (CCCM) with a pyrocarbon matrix has been examined. Oxidation at temperatures of 450 to 700 °C is characterized by internal burnout of the carbon phase without a noticeable change in the experimental samples external volume. Oxidation resistance analysis of CCCM structural components was performed. CCCM and carbon fibers specific surface area were estimated by the low-temperature adsorption of nitrogen and krypton using the Brunauer-Emmett-Teller model and the theory of density functional model. Pore size distribution was calculated by the semi-empirical Horvath-Kawazoe method. A significant increase (about 10-15 times) in specific surface area of the composite material, together with a rise in free volume ~5%, was accompanied by total weight loss of about 5%. Specific surface area changes occur as a result of anisotropic etching of carbon fibers surface with the formation of micropores with 0.5–2.0 nm diameter range. Although macropores are formed mainly due to the oxidation of thermosetting binder pyrolysis residue, they do not contribute to the specific surface increase but solely provide access to micropores. Microporosity evolution leads to an increase of structural discontinuity degree and, ultimately, to the loss of matrix-filler contact boundary. As a result, an overall weakening of material mechanical characteristics is to be noted. Thus, oxidative degradation is closely related to the increase in void space. A follow-up study is on-going. In fact, an open question remains, namely whether the oxidative process occurs differently in the micropores of diameter less than 2 nm and how it may contribute to the oxidative stress resistance behavior of CCCM.

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V. A. Pogodin

3D Printing of Components for the Gas-Discharge Chamber of Electric Rocket Engines

Binder Jetting of Si<sub>3</sub>N<sub>4</sub> Ceramics with Different Porosity

Change in the Integral Pore Size in CCCM during Low-Temperature Oxidation

Study of Porous Ceramic Based on Silicon Nitride Prepared Using Three-Dimensional Printing Technology

CCCM Specific Surface Estimation in Process of Low-Temperature Oxidation

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