Study on Milling Parameters Optimization in Remanufacturing Cold-Welding Area

Qing Zhong Xu; Fang Yi Li; Shi Lei Ma; Jun Zhuang Liu

doi:10.4028/www.scientific.net/AMR.500.123

Paper Titles

Friction in Turning Titanium Alloy Ti-6Al-1.5Cr-2.5Mo-0.5Fe-0.3Si under Minimum Quantity Lubrication (MQL) Condition
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A Study of Cutting Forces in High-Speed Dry Milling of Inconel 718
p.105

Tool Wear in Ball-End Milling of Cr12MoV Die Steel Using an Indexable Cutter with the Asymmetric Inserts
p.111

Experimental Study on Wear-Resistance of Machined Surface in High Speed Milling Aviation Aluminum Alloy
p.117

Study on Milling Parameters Optimization in Remanufacturing Cold-Welding Area
p.123

Experimental Study on Intermittent Turning 2.25Cr-1Mo-0.25V Steel with Coated Cemented Carbide Tool
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Influence of Inclination Angle on Machined Surface Hardness in High Speed Ball End Milling
p.134

Cryogenic Machining of Hard-To-Machine Material, AISI 52100: A Study of Chip Morphology and Comparison with Dry Machining
p.140

Finite Element and Experimental Analysis of Edge Defects Formation during Orthogonal Cutting of SiCp/Al Composites
p.146

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Study on Milling Parameters Optimization in Remanufacturing Cold-Welding Area

Abstract:

Considering cold-welding repaired layer is rough and microstructure contains hard phases, firstly, the two-factor three-level orthogonal milling experiment was conducted in remanufacturing cold-welding repaired area, then the influences of different parameters on Ni-base cold-welding repaired layer milling were studied. At the end, cutting force and surface roughness were used as objectives to optimize the milling parameters. Cutting force and surface roughness were processed by range analysis, and their influence sequences were obtained. The empirical formula of milling force and surface roughness can be obtained through linear regression method, which provided theoretical base for the prediction. The influences on cutting force and surface roughness of different parameters were studied to further optimization, which can provide technical support for high efficiency and precision cutting in cold-welding area.