Abstract
In recent years, hard turning, an alternative to grinding, which provides low cost and good surface quality, has become an attractive method to the manufacturers. In this experimental study, AISI H11 hot work tool steel that has been hardened up to 50 HRC was subjected to hard turning tests with coated carbide tooling. The analyses were carried out by applying response surface methodology with the analysis of variance method. A total of 27 experiments were modeled utilizing 3 3 full factorial design and were carried out using a CNC lathe. The effects of the cutting parameters on surface roughness, energy consumption, electric current value, and sound intensity level were investigated. Optimum cutting parameters and levels were determined according to these optimum values. The relationship between cutting parameters and output variables was analyzed with two-dimensional and three-dimensional graphics. The results show that while the most effective parameter on the surface roughness was the feed rate (88.62%), the most effective parameter on the sound intensity level was the cutting speed (44.92%). In addition, the cutting depth was the most effective parameter on both electric current (52.20%) and energy consumption (46.15%). Finally, regression coefficients were determined as a mathematical model, and it was observed that this estimated model gave results that were very similar to those achieved with real experiment (correlation values: 97.64% for surface roughness, 98.72% for energy consumption, 97.22% for electric current value, and 91.38% for sound intensity level).
Highlights
Hard turning has been an important research topic in recent years
AISI H11 is a widely used chromium hot work tool steel and has a place of importance in hard turning due to its rigidity and durability. is material can reach a hardness of 45–55 HRC after heat treatment [4]
We see from this equation that roughness value (Ra) is directly proportional to the feed rate (f ) and inversely proportional to the nose radius (r). at is, the surface quality deteriorates with increasing feed rate, while the surface quality improves with increasing nose radius
Summary
Hard turning has been an important research topic in recent years. Hard turning is the phenomenon of machining at very high cutting speeds. It is an exceedingly difficult and delicate procedure [1]. In the hard turning process, grinding quality or a better surface quality is obtained without grinding [2]. AISI H11 is a widely used chromium hot work tool steel and has a place of importance in hard turning due to its rigidity and durability. Is material can reach a hardness of 45–55 HRC after heat treatment [4]. Heat treatment improves the strength property of the material and its surface quality in the hard turning process
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