Design and Implementation of High-Voltage Plasma Cleaning Technology for Auto Lamps

Xiao Ming Ling; Duo Wang Fan; De Wen Li

doi:10.4028/www.scientific.net/AMR.472-475.274

Paper Titles

Investigation of Thermal Shock Behavior of Plasma-Sprayed NiCoCrAlY/YSZ Thermal Barrier Coatings
p.246

Copper Ultrasonic-Electrodeposition on Zn Alloy in Alkaline Bath Containing 1-Hydroxyethylene-1,1-Diphosphonic Acid
p.251

Gibbs Free Energy Calculation of Al-Cu Alloy Using Thermo-Calc Software for Microstructure Simulation
p.256

Lattice Boltzmann Simulation on Solid Oxide Fuel Cell Performance
p.260

Design and Implementation of High-Voltage Plasma Cleaning Technology for Auto Lamps
p.274

Influence Analysis of Coupled Neutronics and Thermo-Hydraulics on Steady-State Characteristics of Supercritical Water-Cooled Reactor
p.278

Research and Implementation of Project-Driven Teaching on C51 Programming
p.284

Properties of Electrospark Deposited Cr Coatings on AISI H13 Steel
p.288

Make WPC Products More Beautiful by Secondary Processing
p.293

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 472-475Design and Implementation of High-Voltage Plasma...

Design and Implementation of High-Voltage Plasma Cleaning Technology for Auto Lamps

Abstract:

In order to solve the problems of environment pollution and human resource consumption in traditional wet cleaning process in auto lamps production, a high-voltage Plasma Cleaning Technology (PCT) is presented in this paper. The plasma cleaning system, high voltage AC power and control strategy are realized to develop the plasma cleaning industrial equipment which is used for surface cleaning and activation to promote adhesion between basement and base painting of auto lamps, and the configuration and operation rules are analyzed in detail. According to the established gas discharge model, the PID fuzzy control strategy is achieved to complete automatic control of technology process. The experimental parameters, such as electrical field, gas pressure, and some random factors, are discussed in terms of the curves from practical data. The results show that this design and implementation are feasible in industrial production. After the treatment of PCT to the surface of auto lamps within the automatic equipment, the adhesion between the base material and base painting films is enhanced to a great extent, and the quality and passing rate of production has been greatly improved.