Grindability of powder metallurgy nickel-base superalloy FGH96 and sensibility analysis of machined surface roughness View Full Text


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Article Info

DATE

2019-04

AUTHORS

Benkai Li, Wenfeng Ding, Changyong Yang, Changhe Li

ABSTRACT

The grindability and sensibility analysis of surface roughness of powder metallurgy nickel-base superalloy FGH96 were studied in comparison to the wrought nickel-base superalloy GH4169. The effects of grinding parameters (such as workpiece infeed speed, depth of cut, and abrasive wheel speed) on grinding force, grinding temperature, specific grinding energy, abrasive wheel wear, and surface roughness were analyzed. The results show that the grinding force, grinding temperature, and specific grinding energy of GH4169 are usually higher than those of FGH96 under the given experimental conditions. However, the wear behavior of the brown corundum abrasive wheels when grinding these two kinds of nickel-base superalloy material is generally identical. The sensitivity of GH4169 workpiece surface roughness to depth of cut and workpiece infeed speed is higher than that of FGH96, but the sensitivity of GH4169 to abrasive wheel speed is less than that of FGH96. Finally, it is inferred that the grinding performance of FGH96 is slightly better than that of GH4169. More... »

PAGES

1-15

References to SciGraph publications

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  • 2011-09. Influence of cutting speed on surface integrity for powder metallurgy nickel-based superalloy FGH95 in THE INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
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  • 2013-04. Analysis of heat transfer coefficient on workpiece surface during minimum quantity lubricant grinding in THE INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
  • 2016-10. Study on high-speed machining of Inconel 718 focusing on tool surface topography of CBN cutting tool in THE INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
  • 2016-09. Effect of grinding wheel ultrasonic vibration on chip formation in surface grinding of Inconel 718 in THE INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
  • 2013-09. Damage of the machined surface and subsurface in orthogonal milling of FGH95 superalloy in THE INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
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