Ukrainian State University Of Railway Transport 1

1. Structure of С_diamond–(WC–6Co)–ZrO₂ Composites Formed by Electrical Plasma Spark Sintering
2. C_diamond–(WC–Co)–ZrO₂ Composite Materials with Improved Mechanical and Adhesive Properties
3. Effect of the CrB₂ Additive Content on the Structure, Mechanical Properties, and Performance Characteristics of Diamond-Containing C_diamond–(WC–Co) Composite Materials Formed by Spark Plasma Sintering
4. Effect of the ZrO₂ Content on the Strength Characteristics of the Matrix Material of C_diamond–(WC–Co) Composites Synthesized by Spark Plasma Sintering
5. Effect of Vanadium Nitride Additive on the Structure and Strength Characteristics of Diamond-Containing Composites Based on the Fe–Cu–Ni–Sn Matrix, Formed by Cold Pressing Followed by Vacuum Hot Pressing
6. Features Structure of the С_diamond‒(WC‒Co)‒ZrO₂ Composite Fracture Surface as a Result of Impact Loading
7. Phase Formation and Diamond Retention in C_diamond–(WC–Co)–ZrO₂ Composites Formed by Spark Plasma Sintering Method
8. Phase Formation and Physicomechanical Properties of WC–Co–CrB₂ Composites Sintered by Vacuum Hot Pressing for Drill Tools
9. Physical and Mechanical Properties of Composite Diamond-Containing Materials Based on Fe‒Cu–Ni–Sn‒VN Matrices Sintered by Vacuum Hot Pressing
10. Physicomechanical Properties of the Matrix Material of С_diamond–(Fe–Cr–Cu–Ni–Sn) Composite Materials Formed by Spark Plasma Sintering
11. Structure and Properties of WC–Co Composites with Different CrB₂ Concentrations, Sintered by Vacuum Hot Pressing, for Drill Bits
12. Structure of Fe–Cr–Cu–Ni–Sn Matrices with Different ZrO₂ Contents for Sintered Diamond-Containing Composites
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