Liquid-Phase Reaction Sintering Behavior at below 200 °C and Electrical Sheet Resistance of Sn-58Bi/Cu Composite Pastes

Hwang, Jun Ho; Jeong, Dongshin; Lee, Jong‐Hyun

doi:10.3365/kjmm.2018.56.6.440

Korean J. Met. Mater.

2018

DOI: 10.3365/kjmm.2018.56.6.440

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Liquid-Phase Reaction Sintering Behavior at below 200 °C and Electrical Sheet Resistance of Sn-58Bi/Cu Composite Pastes

Jun Ho Hwang¹,

Dongshin Jeong²,

Jong‐Hyun Lee³

Abstract: We used Sn-58Bi and Cu wires to investigate the effects of variable conditions (such as pressure and wire diameter) on the formation of three-component nanoparticles. In the synthesis of the three-component nanoparticles, pulsed wire discharge was used to sublimate the wires. In this system, the K factor is described as Ec/Es, where Ec and Es are respectively the applied energy and the sublimation energy of the system. Experiments were conducted in a N2 atmosphere using the following parameters: voltage of 6 k… Show more

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2019

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Mechanical Properties of Liquid Phase Sintered SiC Materials by the Addition of Unimodal and Bimodal Particles

Lee¹,

Lee²,

Lee³

et al. 2019

Korean J. Met. Mater.

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Both the mechanical properties and probability distribution of liquid phase sintered SiC (LPS-SiC) materials were investigated, based on a detailed analysis of their microstructures. In particular, the effect of the starting sizes of SiC particles on the characterization of LPS-SiC materials was evaluated. LPS-SiC materials were fabricated with a constant applied pressure, using a complex powder of different sized SiC particles. Two types of initial SiC powders used for the fabrication of LPS-SiC materials were a unimodal SiC single powder with the average particle size of 0.3 µm, and a bimodal SiC powder mixture with average particle sizes of 0.3 µm and 30 nm, respectively. A complex powder of Al 2 O 3 and Y 2 O 3 particles was also utilized as an additive material for the consolidation of the LPS-SiC materials. The characterization of the LPS-SiC materials was performed using microstructural observation, three-point bending test and micro Vickers hardness test. The LPS-SiC materials containing the unimodal SiC powder exhibited a good sintered density of about 3.11 g/cm 3 and a low porosity of about 5.4%. The bimodal mixture of different SiC particles did not significantly affect the sintered density of LPS-SiC materials. However, LPS-SiC materials containing the bimodal SiC powder exhibited an average flexural strength about 630 MPa higher than that of unimodal SiC powder, accompanied by the creation of fine SiC grains in the range of about 0.2~1.4 µm. The LPS-SiC materials exhibited a similar hardness level of about 2200 Hv regardless of the starting SiC powders. The bimodal SiC powder also produced a higher shape parameter and variability in hardness in the Weibull statistical analysis.

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Mechanical Properties of Liquid Phase Sintered SiC Materials by the Addition of Unimodal and Bimodal Particles

Lee¹,

Lee²,

Lee³

et al. 2019

Korean J. Met. Mater.

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show abstract

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Liquid-Phase Reaction Sintering Behavior at below 200 °C and Electrical Sheet Resistance of Sn-58Bi/Cu Composite Pastes

Cited by 1 publication

References 51 publications

Mechanical Properties of Liquid Phase Sintered SiC Materials by the Addition of Unimodal and Bimodal Particles

Mechanical Properties of Liquid Phase Sintered SiC Materials by the Addition of Unimodal and Bimodal Particles

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