Effects of surface splicing characteristics of the hardened steel mold on the machined surface topography

Wu, Shi; Li, Zhonghua; Liu, Xianli; Liu, Zhijing

doi:10.1177/0954405419840560

Proceedings of the Institution of Mechanical Engineers, Part B:

2019

DOI: 10.1177/0954405419840560

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Effects of surface splicing characteristics of the hardened steel mold on the machined surface topography

Shi Wu

Zhonghua Li

Xianli Liu

et al.

Abstract: The car cover mold has characteristics of large structure size, complicated surface shape, dimensional precision, and high surface precision. The milling process of the splicing transition zone having different hardness can easily produce load mutation, which has an impact on the tool in the form of vibration. This vibration affects the surface topography of the splicing transition zone. In this article, we propose the surface motion model for ball-end milling cutter with impact vibration and the surface topog… Show more

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Cited by 3 publications

References 27 publications

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Milling Inconel 718 workpiece with cryogenically treated and untreated cutting tools

Gürbüz

Baday

2021

Int J Adv Manuf Technol

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Although Inconel 718 is an important material for modern aircraft and aerospace, it is a kind material, which is known to have low machinability. Especially, while these types of materials are machined, high cutting temperatures, BUE on cutting tool, high cutting forces and work hardening occur. Therefore, in recent years, instead of producing new cutting tools that can withstand these di cult conditions, cryogenic process, which is a heat treatment method to increase the wear resistance and hardness of the cutting tool, has been applied. In this experimental study, feed force, surface roughness, vibration, cutting tool wear, hardness and abrasive wear values that occurred as a result of milling of Inconel 718 material by means of cryogenically treated and untreated cutting tools were investigated. Three different cutting speeds (35-45-55 m/min) and three different feed rates (0.02-0.03-0.04 mm/tooth) at constant depth of cut (0.2 mm) were used as cutting parameters in the experiments. As a result of the experiments, lower feed forces, surface roughness, vibration and cutting tool wear were obtained with cryogenically treated cutting tools. As the feed rate and cutting speed were increased, it was seen that surface roughness, vibration and feed force values increased. At the end of the experiments, it was established that there was a signi cant relation between vibration and surface roughness. However, there appeared an inverse proportion between abrasive wear and hardness values. While BUE did not occur during cryogenically treated cutting tools, it was observed that BUE occurred in cutting tools which were not cryogenically treated.

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Milling Inconel 718 workpiece with cryogenically treated and untreated cutting tools

Gürbüz

Baday

2021

Int J Adv Manuf Technol

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show abstract

A review on theories/methods to obtain surface topography and analysis of corresponding affecting factors in the milling process

Sun

Liu

Meng

et al. 2023

Int J Adv Manuf Technol

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Comprehensive investigation of the effect of cryogenic process on machining of Inconel 718 superalloys with uncoated end mills

Gürbüz,

Baday

2024

Proceedings of the Institution of Mechanical Engineers, Part E:

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Inconel 718 is extensively used in crucial fields such as aerospace, space researches, and space stations due to its superior features such as high mechanical strength even at very high temperatures, high oxidation resistance, and resistance to high temperatures. However, this material is categorized as a difficult-to-machine material owing to its high specific strength, high tool wear, and low thermal properties leading to poor machinability and poor surface integrity during machining. In order to overcome the challenges that arise during the machining of these materials, the cryogenic process, which has been very popular in recent years, have come to the fore due to the wear resistance and hardness it provides for the tool. In this statistical and experimental study, Inconel 718 was milled with cryogenically uncoated end mill (UCC) and uncoated end mill (UC) at different cutting parameters. Surface roughness, abrasive wear, cutting forces, cutting tool wear, vibration values, hardness and Build up Edge (BUE) formation obtained as a result of machining experiments were investigated. It was determined that the values of all experimental results obtained with UCCs are lower than those of UCs. Also, the second order equations (by response surface methodology (RSM)) showed very promising values of R2 (above 90%) and thus reflected the appropriate relation of the independent and dependent variables; therefore, RSM approach can be successfully implemented for predicting experimental values in milling Inconel 718 with UCCs and UCs.

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Effects of surface splicing characteristics of the hardened steel mold on the machined surface topography

Cited by 3 publications

References 27 publications

Milling Inconel 718 workpiece with cryogenically treated and untreated cutting tools

Milling Inconel 718 workpiece with cryogenically treated and untreated cutting tools

A review on theories/methods to obtain surface topography and analysis of corresponding affecting factors in the milling process

Comprehensive investigation of the effect of cryogenic process on machining of Inconel 718 superalloys with uncoated end mills

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