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1. Spark plasma sintering of carbon nanomaterials

   The data on spark plasma sintering (SPS) of carbon nanomaterials (CNMs) are summarized for the first time in this review. An information about the...

   E. V. Suslova, A. P. Kozlov, ... S. V. Savilov in Russian Chemical Bulletin

   Article 01 February 2023

2. Manufacturing Tool-Grade Cermet Cr₂O₃–22Cr by Spark Plasma Sintering at Pressures up to 800 MPa

   Abstract

   The study reveals that the structure of Cr ₂ O ₃ –22 wt % Cr cermet, obtained from a mixture of chromium oxide and chromium by spark plasma...

   M. M. Prokopiv, O. V. Kharchenko, ... I. D. Gnylycya in Journal of Superhard Materials

   Article 01 December 2023
   

3. Effect of Spark Plasma Sintering Temperature on Phase Evaluation and Mechanical Behaviour of cu- 4 Wt% SiC Composite

   Spark plasma sintering (SPS) is a novel approach to fabricate Cu- SiC composites which have a relatively broad range of potential uses in space...

   V. S. S. Venkatesh, R. N. Rao, Lokeswar Patnaik in Silicon

   Article 27 May 2023

4. Preparation of Ultrafine-Grained WC–ZrO₂ Ceramics by Spark Plasma Sintering

   Abstract—

   WC–(1, 3, 5)% ZrO ₂ ceramics have been produced by spark plasma sintering (SPS). WC–ZrO ₂ powder mixtures have been prepared by ultrasonic...

   E. A. Lantsev, A. V. Nokhrin, ... N. Yu. Tabachkova in Inorganic Materials

   Article 01 May 2023
   

5. Features of Oxidation of Copper–Nickel Alloys Synthesized by Spark Plasma Sintering

   Abstract

   Data on high-temperature tests for heat resistance of copper–nickel-based powder materials synthesized by spark plasma sintering (SPS) are...

   N. P. Burkovskaya, N. V. Sevostyanov, ... P. N. Medvedev in Inorganic Materials: Applied Research

   Article 01 April 2023
   

6. Synthesis of Consolidated Carbon Nanomaterials by Spark Plasma Sintering

   Abstract

   Few-layer graphene nanoflakes (GNFs) containing 8–10 graphene layers were treated at temperatures of 600–1800°C and pressures of 10–50 MPa by...

   E. V. Suslova, E. A. Arkhipova, ... S. V. Savilov in Russian Journal of Physical Chemistry A

   Article 15 June 2022
   

7. Evaluating the Suitability of Glass Optical Fiber as a Toughening Agent in Silicon Composites Developed by Spark Plasma Sintering

   This study explores the repurposing of waste glass optical fibers (SiO ₂ fibers) by using them as toughening agents for silicon. The poor fracture...

   B. K. Samantaray, G. Revathi, ... S. Gollapudi in Silicon

   Article 24 January 2024

8. Study of the Phase Composition and Microstructure of Complex Carbide (Ti, W)C Obtained by Spark Plasma Sintering of WC and TiC Powders

   Abstract —The possibility of low-temperature in situ synthesis of (Ti, W)C using plasma-chemical WC nanopowders and industrial micron TiC powders is...

   A. V. Terent’ev, Yu. V. Blagoveshchenskij, ... G. V. Shcherbak in Inorganic Materials: Applied Research

   Article 03 June 2024
   

9. Dynamic Strength of a Fine-Grained Alumina Ceramic Obtained by Spark Plasma Sintering

   Abstract

   Dynamic compressive tests of alumina samples with different grain sizes obtained by spark plasma sintering (SPS) of submicron- and...

   N. V. Melekhin, M. S. Boldin, ... N. Yu. Tabachkova in Inorganic Materials: Applied Research

   Article 01 October 2023
   

10. Electropulse (Spark) Plasma Sintering of Ultrafine-Grained WC–Al₂O₃ Ceramics

    Abstract—

    The sintering mechanisms of WC–Al ₂ O ₃ nanopowder compositions with different contents of al-umina particles (1, 3, and 5 wt %) have been...

    E. A. Lantsev, A. V. Nokhrin, ... A. V. Terentyev in Inorganic Materials: Applied Research

    Article 01 October 2023
    

11. Phase Formation and Diamond Retention in C_diamond–(WC–Co)–ZrO₂ Composites Formed by Spark Plasma Sintering Method

    Abstract

    New data on the effect of a ZrO ₂ nanopowder additive (from 0 to 10 wt %) on phase formation and structural transformations in the hard-alloy...

    B. T. Ratov, V. A. Mechnik, ... Z. G. Utepov in Journal of Superhard Materials

    Article 01 April 2024
    

12. Investigation of the Effect of LiCl and LiF Additives on the Kinetics of Spark Plasma Sintering of Fine-Grained Alumina

    Abstract—

    The effect of the lithium chloride and lithium fluoride additives (2 wt %) on the kinetics of spark plasma sintering of industrial fine...

    M. S. Boldin, A. A. Popov, ... A. A. Murashov in Inorganic Materials: Applied Research

    Article 01 October 2023
    

13. BiFe₂(PO₄)₃ Ceramics: Fabrication by Hot Pressing and Spark Plasma Sintering, Thermal Conductivity, and Thermal Diffusivity

    Abstract —

    BiFe ₂ (PO ₄ ) ₃ ceramic powder with controlled chemical and phase compositions has been prepared by evaporation of the salt solution, followed...

    V. I. Pet’kov, D. A. Lavrenov, ... D. A. Permin in Inorganic Materials

    Article 01 July 2023
    

14. High-Temperature Oxidation of the Copper–Nickel Alloys Synthesized by Spark Plasma Sintering

    Abstract

    The article presents data on heat resistance high-temperature tests of powder materials based on copper–nickel. The features of oxidation of...

    N. P. Burkovskaya, N. V. Sevostyanov, ... E. M. Shcherbakov in Inorganic Materials: Applied Research

    Article 20 April 2022
    

15. Investigation of Structure and Corrosion Resistance of Titanium Alloys Produced by the Method of Spark Plasma Sintering

    Abstract

    The results of the structure and corrosion resistance research of titanium alloys VT1-0, PT-3B, and VT6 obtained by spark plasma sintering...

    A. V. Nokhrin, P. V. Andreev, ... G. S. Nagicheva in Inorganic Materials: Applied Research

    Article 30 September 2022
    

16. Physicochemical and Mechanical Studies of Al₂O₃–Cu Metal-Ceramic Composites Obtained by Spark Plasma Sintering

    Abstract

    Alumina-based composites have good properties such as high hardness, high chemical and temperature stability and excellent wear resistance....

    Samira Shaabani, Morteza Jabbari, Mansoor Bozorg in Russian Journal of Inorganic Chemistry

    Article 01 November 2022
    

17. Structure of С_diamond–(WC–6Co)–ZrO₂ Composites Formed by Electrical Plasma Spark Sintering

    Abstract

    The effect produced by different concentrations of ZrO ₂ additives (from 0 to 10 wt %) on the morphology, structure, and content of diamond...

    V. A. Mechnik, Miroslaw Rucki, ... V. G. Kulich in Journal of Superhard Materials

    Article 01 October 2022
    

18. Effect of the ZrO₂ Content on the Strength Characteristics of the Matrix Material of C_diamond–(WC–Co) Composites Synthesized by Spark Plasma Sintering

    Abstract —For structurally homotypical specimens different in the ZrO ₂ content from the (94WC–6Co) + ZrO ₂ matrix material used in diamond-containing С _diamond...

    B. T. Ratov, E. Hevorkian, ... M. D. Sarbopeeva in Journal of Superhard Materials

    Article 01 June 2024
    

19. Preparation of Si₂N₂O Ceramics by Spark Plasma Sintering

    Abstract —

    Powder mixtures based on Si ₃ N ₄ nanoparticles and yttrium and aluminum oxides were prepared. Ceramic samples with a relative density of...

    L. S. Alekseeva, P. V. Andreev, ... G. V. Shcherbak in Inorganic Materials

    Article 01 July 2022
    

20. Properties of Li_1.3Al_0.3Ti_1.7(PO₄)₃ Lithium-Conducting Ceramics Synthesized by Spark Plasma Sintering

    Abstract

    Results on the synthesis of lithium-conducting ceramics Li _1.3 Al _0.3 Ti _1.7 (PO ₄ ) ₃ by the method of spark plasma sintering (SPS) are presented....

    G. B. Kunshina, O. O. Shichalin, ... O. B. Shcherbina in Russian Journal of Electrochemistry

    Article 01 March 2023