Abstract
Modelling of Dross Height in Plasma Jet Cutting Process of Aluminium Alloy 5083 Using Fuzzy Logic Technique
Highlights
Plasma jet cutting is nonconventional manufacturing process very present in shipbuilding and metal processing industry
Because of high heat and electrical conductivity of aluminium, plasma jet cutting is followed by insecurity about process parameters settings that lead to optimal cut quality characteristics
The aim of this paper is to develop a fuzzy logic model that predicts the influence of variable process parameters on dross height in plasma jet cutting of aluminium alloy 5083
Summary
Plasma jet cutting is nonconventional manufacturing process very present in shipbuilding and metal processing industry. The result of plasma jet cutting process is a cut quality that is defined by different characteristics such as: kerf width, bevel angle, surface roughness, dross height, productivity etc. These characteristics are mostly influenced by process parameters settings defined by technologists. Due to that many authors conducted comprehensive researches in order to describe the influence of these variable process parameters on the cut quality characteristics and to define their optimal values. These findings can be very useful in daily industrial applications of this manufacturing process
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