Architectural design and cryogenic synthesis of Si3N4@(TiN–Si3N4) for high conductivity

Yang, Mei; Lv, Mingli; Wang, Qi; Zhu, Hongmin

doi:10.1111/jace.15165

Cited by 5 publications

(2 citation statements)

References 27 publications

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“…Si 3 N 4 -Tin it finds its usage in reinforced environment like convoluted moulds and heat exchanges which is in the metal forming, wear opposing components etc., it's composition is 55% tin, 40% si 3 n 4 , and 5% of additives like al 2 o 3 and y 2 o 3 . It has a very high material removal rate 100uj to 110uj because of the addition of tin which is a catalyst in EDM process [7], [25]- [27].…”

Section: Vedm Machining Of Si3n4and Resultsmentioning

confidence: 99%

Electrical Discharge Machining of Al2O3 and Si3N4 Ceramics; A Research

2019

IJRTE

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Ceramic materials which have high hardness and brittleness cannot be machined by traditional machining process because of their low efficiency and feasibility. But in non-traditional machining process, it overcomes these limitations proving it to be very useful in manufacturing process. In this review paper we are discussing about electrical discharge machining (EDM) process on Al2O3 and Si3N4 ceramic materials which are machine able. EDM parameters like material removal rate (MRR), tool wear rate (TWR), surface finish are discussed. EDM is very much suitable for ceramic materials because of its high surface finish, accuracy and efficiency.

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Section: Vedm Machining Of Si3n4and Resultsmentioning

confidence: 99%

Electrical Discharge Machining of Al2O3 and Si3N4 Ceramics; A Research

2019

IJRTE

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“…Generally, there are two ways to improve the electrical conductivities of composite ceramics with low conductive phase contents. The first approach is to introduce uniformly dispersed conductive nanoparticles into a insulating matrix [9], and the second is to fabricate conductive coatings on the surface of matrix particles [16][17][18]. However, both methods require a process involving liquid phases before sintering, which is complicated (multi-step) and costly.…”

Section: Introduction mentioning

confidence: 99%

Highly electro-conductive B ₄C–TiB ₂ composites with three-dimensional interconnected intergranular TiB ₂ network

Zhao¹,

Wang²,

Jin³

et al. 2023

Journal of Advanced Ceramics

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To achieve lightweight B 4 C-based composite ceramics with high electrical conductivities and hardness, B 4 C-TiB 2 ceramics were fabricated by reactive spark plasma sintering (SPS) using B 4 C, TiC, and amorphous B as raw materials. During the sintering process, fine B 4 C-TiB 2 composite particles are firstly in situ synthesized by the reaction between TiC and B. Then, large raw B 4 C particles tend to grow at the cost of small B 4 C particles. Finally, small TiB 2 grains surround large B 4 C grains to create a three-dimensional interconnected intergranular TiB 2 network, which is beneficial for an electro-conductive network and greatly improves the conductivity of the ceramics. The effect of the B 4 C particle size on the mechanical and electrical properties of the ceramics was investigated. When the particle size of initial B 4 C powders is 10.29 µm, the obtained B 4 C-15 vol% TiB 2 composite ceramics exhibit an electrical conductivity as high as 2.79×10 4 S/m and a density as low as 2.782 g/cm 3 , together with excellent mechanical properties including flexural strength, Vickers hardness (HV), and fracture toughness (K IC ) of 676 MPa, 28.89 GPa, and 5.28 MPa•m 1/2 , respectively.

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Fabrication of a novel high electrical conductivity Si3N4 matrix composite with Cu three-dimensional network structure by spark plasma sintering

Wu,

Yan,

Liu

et al. 2024

Journal of Alloys and Compounds

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Architectural design and cryogenic synthesis of Si₃N₄@(TiN–Si₃N₄) for high conductivity

Cited by 5 publications

References 27 publications

Electrical Discharge Machining of Al2O3 and Si3N4 Ceramics; A Research

Electrical Discharge Machining of Al2O3 and Si3N4 Ceramics; A Research

Highly electro-conductive B ₄C–TiB ₂ composites with three-dimensional interconnected intergranular TiB ₂ network

Fabrication of a novel high electrical conductivity Si3N4 matrix composite with Cu three-dimensional network structure by spark plasma sintering

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Architectural design and cryogenic synthesis of Si3N4@(TiN–Si3N4) for high conductivity

Cited by 5 publications

References 27 publications

Electrical Discharge Machining of Al2O3 and Si3N4 Ceramics; A Research

Electrical Discharge Machining of Al2O3 and Si3N4 Ceramics; A Research

Highly electro-conductive B 4C–TiB 2 composites with three-dimensional interconnected intergranular TiB 2 network

Fabrication of a novel high electrical conductivity Si3N4 matrix composite with Cu three-dimensional network structure by spark plasma sintering

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Product

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About

Architectural design and cryogenic synthesis of Si₃N₄@(TiN–Si₃N₄) for high conductivity

Highly electro-conductive B ₄C–TiB ₂ composites with three-dimensional interconnected intergranular TiB ₂ network