Investigation on Cutting Performance of Micro-Textured Cutting Tools

This paper explores the influence of micro textures on cutting performance of polycrystalline cubic boron nitride (PCBN) tools from two aspects, that is, tool wear and machined surface roughness. By designing micro-hole textures with different forms and scales on the rake face of tools when PCBN tools turn hardened steel GCr15, and combining finite element analysis (FEA) technology and cutting experiments, the cutting performance of micro-textured tools is simulated and analyzed. This paper analyses the influence of micro textures on tool wear and machined surface roughness by analyzing cutting force, Mises stress and maximum shear stress of tool surface. Results of finite element analysis (FEA) and cutting experiments show that the reasonable micro-hole textures can significantly alleviate tool wear and improve machined surface quality when compared with the non-textured tools. Besides, the size of micro-hole textures on the rake face play an important role in reducing the cutting force and tool wear. This is mainly because micro-hole textures can reduce cutting force and improve tool surface stress. Finally, by designing reasonable micro-hole textures on the rake face, the problems of bad roughness of machined workpiece and severe tool wear of PCBN tools in cutting GCr15 material are solved. Consequently, the paper shows that micro-hole textures have a positive effect on improving the cutting performance of tool.

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Study on the cutting performance in machining assembled hardened steel workpiece with torus cutter

Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture ◽

10.1177/0954405419889200 ◽

2019 ◽

Vol 234 (4) ◽

pp. 701-709

Author(s):

Tao Chen ◽

Weijie Gao ◽

Guangyue Wang ◽

Xianli Liu

Keyword(s):

Tool Wear ◽

Cutting Force ◽

Surface Quality ◽

Wear Mechanism ◽

Hardened Steel ◽

Cutting Performance ◽

Machining Process ◽

Machined Surface ◽

Machined Surface Quality ◽

Two Sides

Torus cutters are increasingly used in machining high-hardness materials because of high processing efficiency. However, due to the large hardness variation in assembled hardened steel workpiece, the tool wear occurs easily in machining process. This severely affects the machined surface quality. Here, we conduct a research on the tool wear and the machined surface quality in milling assembled hardened steel mold with a torus cutter. The experimental results show the abrasive wear mechanism dominates the initial tool wear stage of the torus cutter. As the tool wear intensifies, the adhesive wear gradually occurs due to the effect of alternating stress and impact load. Thus, the mixing effect of the abrasive and adhesive wears further accelerates tool wear, resulting in occurrence of obvious crater wear band on the rake face and coating tearing area on the flank face. Finally, the cutter is damaged by the fatigue wear mechanism, reducing seriously the cutting performance. With increase of flank wear, moreover, there are increasingly obvious differences in both the surface morphology and the cutting force at the two sides of the joint seam of the assembled hardened steel parts, including larger height difference at the two sides of the joint seam and sudden change of cutting force, as a result, leading to decreasing cutting stability and deteriorating seriously machined surface quality.

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Cutting Performance of Turning Insert with Three-Arcs-Shaped Finishing Edge

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.110-116.1630 ◽

2011 ◽

Vol 110-116 ◽

pp. 1630-1636

Author(s):

Tadahiro Wada ◽

Kazuki Hiro ◽

Nakanishi Jun

Keyword(s):

Surface Roughness ◽

Tool Wear ◽

Cutting Force ◽

Cutting Performance ◽

Machined Surface ◽

Corner Radius ◽

Better Than

In the turning of a shaft with a step of specified corner R, it is important whether the corner radiuses of the turning insert is the same as the specified corner R or lower than it. A turning tool with a large corner radius cannot adapt to cutting a shaft with a step of specified corner R. In this study, the surface roughness, cutting force, and tool wear were experimentally investigated in order to clarify the cutting performance of the turning insert with a three-arcs-shaped finishing edge. The machined surface of the insert with a three-arcs-shaped finishing edge was better than that of the normal insert. The wear progress of the insert with an arc-shaped finishing edge was slightly slower than that of the normal insert. The cutting force of the insert with an arc-shaped finishing edge was almost the same as that of the normal insert.

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The Comparative Study on Cutting Performance of Different-Structure Milling Cutters in Machining CFRP

Applied Sciences ◽

10.3390/app8081353 ◽

2018 ◽

Vol 8 (8) ◽

pp. 1353

Author(s):

Tao Chen ◽

Fei Gao ◽

Suyan Li ◽

Xianli Liu

Keyword(s):

Carbon Fiber ◽

Cutting Force ◽

Surface Quality ◽

Cutting Edge ◽

Cutting Performance ◽

Machining Process ◽

Carbon Fiber Composites ◽

Machined Surface ◽

Milling Cutter ◽

Machined Surface Quality

Carbon fiber reinforced plastic (CFRP) is typically hard to process, because it is easy for it to generate processing damage such as burrs, tears, delamination, and so on in the machining process. Consequently, this restricts its wide spread application. This paper conducted a comparative experiment on the cutting performance of the two different-structure milling cutters, with a helical staggered edge and a rhombic edge, in milling carbon fiber composites; analyzed the wear morphologies of the two cutting tools; and thus acquired the effect of the tool structure on the machined surface quality and cutting force. The results indicated that in the whole cutting, the rhombic milling cutter with a segmented cutting edge showed better wear resistance and a more stable machined surface quality. It was not until a large area of coating shedding occurred, along with chip clogging, that the surface quality decreased significantly. At the stage of coating wear, the helical staggered milling cutter with an alternately arranged continuous cutting edge showed better machined surface quality, but when the coating fell off, its machined surface quality began to reveal damage such as groove, tear, and fiber pullout. Meanwhile, burrs occurred at the edge and the cutting force obviously increased. By contrast, for the rhombic milling cutter, both the surface roughness and cutting force increased relatively slowly.

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COMPARISON OF PREPARATION METHODS IN TERMS OF TOOL LIFE AND SURFACE ROUGHNESS

MM Science Journal ◽

10.17973/mmsj.2021_10_2021101 ◽

2021 ◽

Vol 2021 (4) ◽

pp. 4836-4840

Author(s):

ROBERT STRAKA ◽

◽

JOZEF PETERKA ◽

TOMAS VOPAT ◽

◽

...

Keyword(s):

Surface Roughness ◽

Tool Wear ◽

Cutting Parameters ◽

Turning Process ◽

Machined Surface ◽

Preparation Methods ◽

Machined Surface Roughness ◽

Cutting Inserts ◽

Drag Finishing ◽

Edge Preparation

The article compares two cutting edge preparation methods and their influence on the machined surface roughness of the difficult to cut nickel alloy Inconel 718 and the tool wear of cutting inserts made of cemented carbide. The manufacturing and preparation process of cutting inserts used in the experiment were made by Dormer Pramet. The preparation methods used in the experiment were drag finishing and brushing. Cutting parameters did not change during the whole turning process to maintain the same conditions in each step of the process and were determined based on tests for a semi-finishing operation of the turning process. To obtain durability of 25 to 30 minutes with controlled development of the tool wear the cutting parameters were determined with cooperation with the cutting inserts manufacturer.

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Investigation of AlCrN-Coated Inserts on Cryogenic Turning of Ti-6Al-4V Alloy

Metals ◽

10.3390/met9121338 ◽

2019 ◽

Vol 9 (12) ◽

pp. 1338

Author(s):

Lakshmanan Selvam ◽

Pradeep Kumar Murugesan ◽

Dhananchezian Mani ◽

Yuvaraj Natarajan

Keyword(s):

Tool Wear ◽

Cutting Force ◽

Physical Vapor Deposition ◽

Metal Cutting ◽

Cutting Speed ◽

Depth Of Cut ◽

Machining Parameters ◽

Machined Surface ◽

Coated Carbide ◽

Cryogenic Conditions

Over the past decade, the focus of the metal cutting industry has been on the improvement of tool life for achieving higher productivity and better finish. Researchers are attempting to reduce tool failure in several ways such as modified coating characteristics of a cutting tool, conventional coolant, cryogenic coolant, and cryogenic treated insert. In this study, a single layer coating was made on cutting carbide inserts with newly determined thickness. Coating thickness, presence of coating materials, and coated insert hardness were observed. This investigation also dealt with the effect of machining parameters on the cutting force, surface finish, and tool wear when turning Ti-6Al-4V alloy without coating and Physical Vapor Deposition (PVD)-AlCrN coated carbide cutting inserts under cryogenic conditions. The experimental results showed that AlCrN-based coated tools with cryogenic conditions developed reduced tool wear and surface roughness on the machined surface, and cutting force reductions were observed when a comparison was made with the uncoated carbide insert. The best optimal parameters of a cutting speed (Vc) of 215 m/min, feed rate (f) of 0.102 mm/rev, and depth of cut (doc) of 0.5 mm are recommended for turning titanium alloy using the multi-response TOPSIS technique.

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Cutting Force Evolution and its Power Spectrum Analysis with Tool Wear Progress in Ultra-Precision Raster Milling

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.625.20 ◽

2014 ◽

Vol 625 ◽

pp. 20-25

Author(s):

Guo Qing Zhang ◽

Suet To ◽

Gao Bo Xiao

Keyword(s):

Power Spectrum ◽

Tool Wear ◽

Cutting Force ◽

Spectrum Analysis ◽

Diamond Tool ◽

Power Spectrum Analysis ◽

Spectrum Density ◽

Ultra Precision ◽

The Time Domain ◽

Cutting Experiments

In this paper, cutting force and its power spectrum analysis at different tool wear levels are explored. A dynamic model is established to simulate the measured cutting force compositions, and a series of cutting experiments have been conducted to investigate the cutting force evolution with the tool wear progress. Research results reveal that in the time domain, the cutting force in UPRM is characterized as a force pulse follows by a damped vibration signals, the vibration can be modeled by a second order impulse response of the measurement system. While in the frequency domain, it is found that the power spectrum density at the natural frequency of dynamometer increases with the progress of tool wear, which therefore can be utilized to monitor diamond tool wear in UPRM.

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Cutting Performance of Diamond-Like Carbon Coated Tool in Cutting of Aluminum Alloys

Materials Science Forum ◽

10.4028/www.scientific.net/msf.638-642.368 ◽

2010 ◽

Vol 638-642 ◽

pp. 368-373 ◽

Cited By ~ 4

Author(s):

Tadahiro Wada

Keyword(s):

Aluminum Alloy ◽

Aluminum Alloys ◽

Tool Wear ◽

Cutting Force ◽

Coating Layer ◽

Cutting Performance ◽

Diamond Like Carbon ◽

Dlc Coating ◽

Coated Tool ◽

Alloy 6061

In cutting aluminum alloy 6061, continuous chips have a negative influence on the machining operation. Usually, Pb is added in order to break continuous chips. However, from the standpoint of environmental protection, it is necessary to improve chip breakability without adding Pb. One effective measure is improving chip breakability by adding Si in aluminum alloy 6061. However, the influence of Si content on tool wear has not been fully examined. In this study, in order to clarify the influence of a diamond-like carbon (DLC) coating layer on cutting performance, aluminum alloys having different Si contents were turned. The substrate of the tool material was high speed steel (1.4%C). The chip configuration, cutting force and tool wear were experimentally investigated. The following results were obtained: (1) The DLC coating layer was effective for decreasing the cutting force. (2) In cutting Al-2mass%Si alloy, the wear progress of the DLC-coated tool was slower than that of the un-coated tool. The length of a chip with the DLC-coated tool was shorter than that with the un-coated tool.

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Experimental Assessment of Laser Textured Cutting Tools in Dry Cutting of Aluminum Alloys

Journal of Manufacturing Science and Engineering ◽

10.1115/1.4032263 ◽

2016 ◽

Vol 138 (7) ◽

Cited By ~ 36

Author(s):

Youqiang Xing ◽

Jianxin Deng ◽

Xingsheng Wang ◽

Kornel Ehmann ◽

Jian Cao

Keyword(s):

Aluminum Alloys ◽

Cutting Tools ◽

Chip Morphology ◽

Cutting Performance ◽

Rake Face ◽

Dry Cutting ◽

Machined Surface ◽

Machined Surface Quality ◽

Chip Compression Ratio ◽

Cemented Carbide Tools

To improve the friction conditions and reduce adhesion at the tool's rake face in dry cutting of aluminum alloys, three types of laser surface textures were generated on the rake face of cemented carbide tools. Orthogonal dry cutting tests on 6061 aluminum alloy tubes were carried out with the textured and conventional tools (CT). The effect of the texture geometry on the cutting performance was assessed in terms of cutting forces, friction coefficient, chip compression ratio, shear angle, tool adhesions, chip morphology, and machined surface quality. The results show that the textured tools can improve the cutting performance at low cutting speeds, and that the tool with rectangular type of textures is the most effective.

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Experimental Investigation of Tool Wear and Chip Morphology in Turning Titanium Alloy Ti6Al4V

Materials Science Forum ◽

10.4028/www.scientific.net/msf.800-801.81 ◽

2014 ◽

Vol 800-801 ◽

pp. 81-86

Author(s):

Zhen Li ◽

Er Liang Liu ◽

Teng Da Wang ◽

Jiao Li ◽

Yong Chun Zheng

Keyword(s):

Titanium Alloy ◽

Tool Wear ◽

Cutting Force ◽

Feed Rate ◽

Cutting Speed ◽

Chip Morphology ◽

Adhesion Wear ◽

On Chip ◽

Titanium Alloy Ti6al4v ◽

Cutting Experiments

The various feed rate and cutting speed have an important influence on cutting force, tool wear and chip morphology in machining titanium alloy. Cutting experiments are carried out analyzing the titanium alloy Ti6Al4V under different cutting speed and feed rate, the cutting force values are obtained. The analysis results show that the dominant wear pattern is adhesion wear and chipping. And the tool wear also has an influence on chip morphology.

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Pulsed Magnetic Field Treatment of TiAlSiN Coated Milling Tools For Improved Cutting Performances

10.21203/rs.3.rs-1148443/v1 ◽

2021 ◽

Author(s):

Hao Qu ◽

Lin Zhang ◽

Zhe Chen ◽

Lei Zhang ◽

Kyle Jiang ◽

...

Keyword(s):

Magnetic Field ◽

Surface Roughness ◽

Cutting Force ◽

Processing Parameters ◽

Cutting Performance ◽

Machining Process ◽

Pulsed Magnetic Field ◽

Machined Surface ◽

Wear Area ◽

Cutting Vibration

Abstract In this study a pulsed magnetic treatment was attempted to improve the cutting performance of the TiAlSiN coated WC-12wt%Co cemented carbide end mills and the effects of the strength of the pulsed magnetic field on the cutting forces, the cutting vibrations, the tool wear, the machined surface roughness and mechanical properties were investigated. It is found that the cutting performances of the coated tools are successfully improved with a relatively lower cutting force and less wear area. The average resultant cutting force Fxyave decrease by 14.53% in the last machining process when the optimum processing parameters of 0.5T magnetic field is used, accompanying a maximum decrease of 46.8% in the cutting vibration. The maximum reductions of 57.65% and 25.4% in the flank wear and the average surface roughness of the workpiece are obtained respectively after the treatment. Both the hardness and toughness of the cemented carbides are slightly improved with the imposition of the field. The improvements in the cutting performance of the tool are attributed to the enhanced adhesion strength between the coating and matrix, which is caused by the increased compressive residual stress induced by the PMT.

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