Litcius/Paper detail

Experimental investigation on the erosion behavior in high-current vacuum arcs and resulting microparticles dynamics

Fengfeng Jiang, Yi Wu, Yifei Wu, Yufei Cui, Mingzhe Rong, Hao Sun, Long Chen

2021Journal of Physics D Applied Physics18 citationsDOI

Abstract

Abstract Microparticles are an inevitable component of vacuum arcs. This paper focused on the dynamics of microparticle and erosion behavior in high-current vacuum arcs. The arc was sustained with AC 110 Hz between two butt CuCr alloy contacts with a diameter of 10 mm. An in situ microparticle diagnostic system suitable for vacuum arcs was developed. Three sources of microparticles were observed and the corresponding motion characteristics were obtained by our method. The influence of current and Cr content on erosion characteristics was investigated. The results indicate that the increase of Cr content contributes to inhibiting production of microparticles when the current is small. CuCr30 has the best effect of suppressing microparticle production among the three tested alloy materials under large current. The work of this paper helps with the understanding of microparticle behavior in high-current vacuum arcs and may provide a path for the design of a vacuum electrode.

Topics & Concepts

Current (fluid)ErosionDynamics (music)MechanicsMaterials scienceGeologyPhysicsThermodynamicsGeomorphologyAcousticsVacuum and Plasma ArcsAdvanced materials and compositesDiamond and Carbon-based Materials Research