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Dry Hard Turning versus Grinding—The Influence of Machining-Induced Surface Integrity on Fatigue Performance

Yinxia Zhang, Shaoshuai Yuan, Xin Yang, Wei Gao, Mingliang Zhang, Zhenlong Peng

2023Coatings15 citationsDOIOpen Access PDF

Abstract

Dry hard turning (DHT) provides an effective process for finishing high-hardness materials. Machining-induced surface integrity has a direct impact on functional performance. This study compares the effects of the DHT and grinding processes on machining-induced surface integrity and fatigue performance of 18CrNiMo7-6 steel. The DHT and grinding experiment were carried out by using a polycrystalline cubic boron nitride tool and corundum wheel, respectively. The 3D surface morphology, surface roughness, surface residual stress, and machining accuracy of the hourglass-shaped specimen were measured. The fatigue fracture was characterized by scanning electron microscopy. The experimental results show that compared to grinding, DHT has obtained a larger surface compressive residual stress (the maximum axial and tangent residual stresses are −762.6 MPa and −442.8 MPa, respectively) and a lower surface roughness (the minimum Ra and Rq are 0.172 μm and 0.230 μm, respectively). This study is an attempt to use DHT instead of a grinding process to finish 18CrNiMo7-6 steel, providing a reference for high-quality and sustainable manufacturing of hardened steel.

Topics & Concepts

Surface integrityMaterials scienceMachiningGrindingSurface roughnessResidual stressHardened steelScanning electron microscopeComposite materialMetallurgySurface finishBoron nitrideAdvanced machining processes and optimizationSurface Treatment and Residual StressMetal Alloys Wear and Properties