Effect of Boronizing on Cutting Performance of Ti(C,N)-Based Cermet Tool

Hai Dong Yang; Ju Li Hu; Yu Ming Zou; Xiao Yang; Xiao Jun Liu

doi:10.4028/www.scientific.net/KEM.589-590.390

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Experimental Investigation on Effects of Tool Condition on Processing Quality during Broaching 26NiCrMoV145 Supperalloy
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The Design and Finite Element Simulation Analysis of the Tool in Milling Titanium Alloys
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Kinematics Simulation and Vibration Mode Analysis of Micro Turn-Milling Machine Tool
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Research on Stress Intensity Factor of the Interface Crack in the Hard Cladding Material Structure under Mechanical Impact Load
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Effect of Boronizing on Cutting Performance of Ti(C,N)-Based Cermet Tool
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Stress Analysis on the Cutting Edge Based on Design of Micro-Cutting Tool
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Simulation of Temperature Distribution in HFCVD Diamond Films Growth on WC-Co Drill Tools in Large Quantities
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Tribo-Map of CVD Diamond Film Sliding against Silicon Nitride in Air
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Study on the Mechanical Properties of DLC Thin Films Doped with Cu
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 589-590Effect of Boronizing on Cutting Performance of...

Effect of Boronizing on Cutting Performance of Ti(C,N)-Based Cermet Tool

Abstract:

Through the experiment of cutting 45 steel, the influence of boronizing on Ti (C,N)-based ceramic cutting performance in different cutting speeds were discussed. The test results indicated that: regardless of boriding, cutting speed has a great influence on the life of Ti (C,N)-based ceramic cutting tool. Within the limit of 200~400 m/min, the lower the cutting speed is, the longer tools life. At the minimum speed, boronizing greatly improves cutting performance and doubles tool life. It has no significant but negative effects once over 300 m/min. The decrease of the abrasion resistance of boronized layer is mainly influenced by the intense thermal shock of high speed cutting.