Journal ArticleDOI
Grinding performance of textured monolayer CBN wheels: Undeformed chip thickness nonuniformity modeling and ground surface topography prediction
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TLDR
In this article, the ground surface roughness and topography of textured monolayer CBN wheels have been used to predict the workpiece topography in different stages of the grinding process.Abstract:
The ground surface roughness and topography are commonly used to characterize the surface finishing. In the application of textured monolayer CBN wheels, the nonuniformity of wheel topology will render a nonuniform undeformed chip thickness which greatly affects the ground surface. In order to predict the ground surface topography more accurately and efficiently, grinding experiment has been conducted in the current study, with measured grinding wheel topology. The measured surface topology of textured monolayer CBN wheels has been reconstructed by using the Johnson transformation and its inverse transformation. The influence of wheel topology evolution on the undeformed chip thickness nonuniformity has been determined with an improved model. It has been found the ground surface roughness is improved with a continuous reducing undeformed chip thickness nonuniformity. The percentage of active grains, the mean value and standard deviation of undeformed chip thickness have been found the main factors in determining the surface roughness. The reconstructed wheel surface topology has been used to predict the workpiece topography in different stages of the grinding process.read more
Citations
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Experimental evaluation of surface topographies of NMQL grinding ZrO2 ceramics combining multiangle ultrasonic vibration
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Grinding temperature and power consumption in high speed grinding of Inconel 718 nickel-based superalloy with a vitrified CBN wheel
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A review on metallic porous materials: pore formation, mechanical properties, and their applications
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Journal ArticleDOI
Modeling and simulation of the distribution of undeformed chip thicknesses in surface grinding
TL;DR: In this paper, a wheel topography model is developed that can be integrated with a workpiece model, a kinematic model and a calculation model of a single grain to obtain the distribution of undeformed chip thicknesses.
Journal ArticleDOI
A comprehensive investigation of surface generation and material removal characteristics in ultrasonic vibration assisted grinding
TL;DR: In this paper, a comprehensive simulation model of UVAG considering Poisson effect has been developed to predict the three-dimensional surface topography and calculate the parameters (undeformed chip thickness, dynamic active grain number) which could reflect the characteristics of corresponding material removal process.
References
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Experimental Evaluation of the Lubrication Performance of MoS2/CNT Nanofluid for Minimal Quantity Lubrication in Ni-based Alloy Grinding
TL;DR: In this article, a hybrid nanofluid consisting of MoS2 nanoparticles with good lubrication effect and CNTs with high heat conductivity coefficient is investigated for Ni-based alloy grinding.
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TL;DR: In this article, the authors describe a single-grit single-grinding tools and abrasive cut-off for form-and-finish grinding of slabs and billets.
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Transforming Non-Normal Data to Normality in Statistical Process Control
TL;DR: Quality characteristics analyzed in statistical process control (SPC) often are required to be normally distributed in many types of control charts and acceptance sampling plans, as well as in process capability studies.
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The johnson system: selection and parameter estimation
TL;DR: In this article, the authors present simple criteria which can be used to select which of the three members of the Johnson System of distributions should be used for fitting a set of data.
Journal ArticleDOI
Predictive modeling of surface roughness in grinding
TL;DR: In this paper, a probabilistic chip thickness model was proposed to predict the arithmetic mean surface roughness of ground surfaces using a geometrical analysis of the grooves left on the surface by ideal conic grains.