Abstract
In recent years, the necessity for energy in the manufacturing industry has become an important problem because fossil fuel reserves are decreasing in order to produce energy. Therefore, the efficient use of energy has become an important research topic. In this study, energy efficiency is investigated in detail for sustainable life and manufacturing. AISI 4140 material with high hardness of 50 HRC hardness has been applied cryogenic process to improve mechanical and machinability properties. In this experiment study, the effects of feed rate (0.04, 0.08, 0.12 mm/rev), cutting speed (140, 160, 180 m/min), depth of cut (0.05, 0.10, 0.15 mm) and tool radius (0.4, 0.8) on energy consumption, surface roughness and sound intensity were investigated. Then, a new mathematical model with high accuracy was developed. Total power consumption was calculated by considering the instantaneous current value and machining time. As a result, it is found that good surface quality obtained when the feed rate is low, and the tool radius is high and the machining time is shortened, the energy consumption is reduced due to the increase in cutting speed, depth of cut and feed rate. Also, it is found that the tool radius has a limited effect on energy consumption, but low feed value increases energy consumption.
Highlights
Developments in machine technology have made widespread use of machine parts that are longer-lasting, lighter and more resistant to friction
AISI 4140 (DIN 1.7225 or 42CrMo4) material, which is suitable for heat treatment, is used
This study aims to minimize the surface roughness and power consumption during hard turning of AISI 4140 using CBN tools under dry cutting conditions
Summary
Developments in machine technology have made widespread use of machine parts that are longer-lasting, lighter and more resistant to friction. AISI 4140 (DIN 1.7225 or 42CrMo4) material, which is suitable for heat treatment, is used. This material is widely used in the machine manufacturing industry, especially in the crankshaft, axle shaft, gear wheel, bolt, and nut construction. The workability and mechanic properties of these materials are improved by the cryogenic process For these reasons, it is an important research topic to examine the workability properties of the material with cryogenic cooling. It is an important research topic to examine the workability properties of the material with cryogenic cooling It has a wide range of applications and many works have been done on this topic
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