Experimental study on the cutting performance of microwave sintered Al2O3/TiC ceramic tool in the machining of hardened steel

Si3N4/TiN nanocomposite tool and Si3N4/Ti(C7N3) nanocomposite tool were prepared. The cutting performance and wear mechanism of Si3N4-based nanocomposite ceramic tool was investigated by comparison with a commercial sialon ceramic tool in machining of 45 steel. Si3N4-based nanocomposite ceramic tool exhibits the better wear resistance than sialon at the relatively high cutting speed. The increased cutting performance of Si3N4-based nanocomposite ceramic tool is ascribed to the higher mechanical properties. Nano-particles can refine the matrix grains and improve the bonding strength among the matrix grains of Si3N4-based nanocomposite ceramic tool materials. It contributes to an improved wear resistance of the cutting tools during machining.

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A multivariate robust parameter design approach for optimization of AISI 52100 hardened steel turning with wiper mixed ceramic tool

International Journal of Refractory Metals and Hard Materials ◽

10.1016/j.ijrmhm.2011.08.001 ◽

2012 ◽

Vol 30 (1) ◽

pp. 152-163 ◽

Cited By ~ 33

Author(s):

A.P. Paiva ◽

P.H. Campos ◽

J.R. Ferreira ◽

L.G.D. Lopes ◽

E.J. Paiva ◽

...

Keyword(s):

Hardened Steel ◽

Design Approach ◽

Parameter Design ◽

Robust Parameter Design ◽

Ceramic Tool ◽

Aisi 52100 ◽

Robust Parameter ◽

Steel Turning ◽

Mixed Ceramic

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Cutting Performance and Wear Mechanisms of an Al2O3-Based Micro-Nano-Composite Ceramic Tool

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.443.244 ◽

2010 ◽

Vol 443 ◽

pp. 244-249 ◽

Cited By ~ 3

Author(s):

Yong Hui Zhou ◽

Jun Zhao ◽

Xing Ai

Keyword(s):

Failure Modes ◽

Cutting Tools ◽

Tool Material ◽

Composite Ceramic ◽

Cutting Performance ◽

Nano Particles ◽

Ceramic Tool ◽

Nano Composite ◽

Micro Particles ◽

1045 Steel

An Al2O3-based composite ceramic cutting tool material reinforced with (W, Ti)C micro-particles and Al2O3 micro-nano-particles was fabricated by using hot-pressing technique, the composite was denoted as AWT. The cutting performance, failure modes and mechanisms of the AWT micro-nano-composite ceramic tool were investigated via continuous turning of hardened AISI 1045 steel in comparison with those of an Al2O3/(W, Ti)C micro-composite ceramic tool SG-4 and a cemented carbide tool YS8. Worn and fractured surfaces of the cutting tools were characterized by scanning electron microscopy (SEM) and energy dispersive X-ray spectroscopy (EDS). The results of continuous turning revealed that tool lifetime of the AWT ceramic tool was higher than that of the SG-4 and YS8 tools at all the tested cutting speeds. The longer tool life of the AWT composite ceramic tool was attributed to its synergistic strengthening/toughening mechanisms induced by the (W, Ti)C micro-particles and Al2O3 nano-particles.

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Experimental study on cutting force and cutting temperature in high speed milling of hardened steel based on response surface method

International Journal of Manufacturing Research ◽

10.1504/ijmr.2018.093276 ◽

2018 ◽

Vol 13 (2) ◽

pp. 99 ◽

Cited By ~ 1

Author(s):

Wei Zhang ◽

Xiuqi Chen ◽

Fengshun He ◽

Tong Wu

Keyword(s):

Experimental Study ◽

Cutting Force ◽

Response Surface ◽

Response Surface Method ◽

High Speed ◽

Cutting Temperature ◽

Hardened Steel ◽

High Speed Milling ◽

Surface Method

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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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Influence of Cutting Speed and Feed Rate on the Wear of an S-Type Mixed Ceramic Tool in Turning of AISI 4140 Hardened Steel

Tehnicki vjesnik - Technical Gazette ◽

10.17559/tv-20170920194959 ◽

2019 ◽

Vol 26 (4) ◽

Keyword(s):

Feed Rate ◽

Cutting Speed ◽

Hardened Steel ◽

Ceramic Tool ◽

Aisi 4140 ◽

Mixed Ceramic

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Cutting Performance and Tool Failure in Intermittent Turning Processes of an Al2O3-Based Micro-Nano-Composite Ceramic Tool

Materials Science Forum ◽

10.4028/www.scientific.net/msf.723.56 ◽

2012 ◽

Vol 723 ◽

pp. 56-61

Author(s):

Yong Hui Zhou ◽

Jun Zhao ◽

Xiao Bin Cui

Keyword(s):

Failure Modes ◽

Composite Ceramic ◽

Cutting Performance ◽

Nano Particles ◽

Ceramic Tool ◽

Nano Composite ◽

Micro Particles ◽

Intermittent Turning ◽

Shock Resistance ◽

1045 Steel

An Al2O3-based micro-nano-composite ceramic cutting tool material reinforced with (W, Ti)C micro-particles and Al2O3 micro-nano-particles was fabricated by using hot-pressing technique, the composite was denoted as AWT. The cutting performance, failure modes and mechanisms of the AWT micro-nano-composite ceramic tool were investigated via intermittent turning of hardened AISI 1045 steel (44~48 HRC) in comparison with those of an Al2O3/(W, Ti)C micro-composite ceramic tool SG-4 and a cemented carbide tool YS8. Worn and fractured surfaces of the cutting tools were characterized by scanning electron microscopy (SEM). The results of intermittent turning revealed that shock resistance of the AWT ceramic tool was higher than that of the SG-4 and YS8 tools at all the tested cutting speeds. The excellent shock resistance of the AWT composite ceramic tool was attributed to its synergistic strengthening/toughening mechanisms induced by the (W, Ti)C micro-particles and Al2O3 nano-particles.

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