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Optimal design and performance evaluation of grinding wheels with triply periodic minimal surface lattice structure

Meng Ye, Dong Wang, Liping Wang, Yun Zhang, Xuekun Li

2024Journal of Materials Research and Technology13 citationsDOIOpen Access PDF

Abstract

High-performance grinding wheels are critical tools for precision surface generation. In precision grinding processes, the coolant supply at the wheel-workpiece interface is critical for reducing grinding temperature and detrimental friction. For better lubrication and chip removal performance, the cavities or pores need to be generated throughout the grinding wheel. The ideal morphology of pores in grinding wheels should be inter-connected and capable of providing sufficient coolant. Conventional grinding wheel design and fabrication methods can only passively generate closed circular pores by using pore-forming agents. Increasing the percentage of pores in this way generally leads to an uncontrollable reduction in mechanical strength, while the closed pores are insufficient in cooling performance. In this paper, the grinding wheels with triply periodic minimal surface lattice structure are designed and fabricated, which achieves the regulable and inter-connected internal structure of grinding wheels. Meanwhile, to balance the relationship between the structural properties and performance indicators of porous grinding wheels, an optimal design method for the porous structure of grinding wheels is proposed. Finally, the grinding performance of the novel grinding wheels in comparison to electroplated diamond grinding wheels is investigated in terms of grinding force, specific grinding energy and ground surface roughness.

Topics & Concepts

Materials scienceGrindingLattice (music)Mechanical engineeringSurface (topology)Engineering drawingCrystallographyMetallurgyGeometryEngineeringMathematicsAcousticsPhysicsChemistryAdvanced machining processes and optimizationMetal Forming Simulation TechniquesMetallurgy and Material Forming