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Grinding (Machining) - an overview | ScienceDirect Topics Machining grinding is defined as an abrasive machining process that utilizes high-speed abrasive wheels, pads, and belts to shape and finish materials It is a key component of modern manufacturing and can overlap with related processes such as polishing, lapping, and honing
Modelling of grinding mechanics: A review - ScienceDirect Accurate prediction of grinding forces is important for optimizing grinding parameters and the structure of grinding machines and fixtures Although there are substantial research papers on grinding mechanics, a comprehensive review on the modeling of grinding mechanics is still absent from the literature
Grinding of composite materials - ScienceDirect Grinding plays an important role in ensuring the final machining quality in the manufacturing process of composite parts Problems such as grinding da…
Analysis of grinding mechanics and improved grinding force model based . . . An analytical grinding force model based on the kinematics and geometry of grains was established in consideration of the grinding wheel surface wear, and it revealed the inherent characteristics of grinding force under high specific grinding energy, low feed speed, and small cutting depth
Robotic grinding of complex components: A step towards efficient and . . . Robotic grinding is considered as an alternative towards the efficient and intelligent machining of complex components by virtue of its flexibility, intelligence and cost efficiency, particularly in comparison with the current mainstream manufacturing modes
Mechanical behavior and modeling of grinding force: A comparative . . . Grinding is widely used in aerospace, optical components, medical devices, shipbuilding and other fields As the last process of machining, in ensuring the accuracy of parts and surface quality plays a vital role The grinding force is generated by the resistance of the abrasive to the deformation of the workpiece material and the friction between the abrasive and the surface of the workpiece
Subsurface damage in sapphire ultra-precision grinding The grinding strategies of rough grinding, semi-finish grinding and ultra-precision grinding are used to suppress the subsurface damage, the effects of grinding wheel grit size and number of grinding passes on the subsurface damage are investigated
Brittle-to-ductile transition depth and ductile deformation mechanisms . . . Then, specific grinding conditions were defined, and the brittle-to-ductile transition (BDT) behavior of 4H-SiC crystals and the effects of grinding parameters on grinding force, grinding stress, grinding temperature, surface generation characteristics and subsurface damage behavior in ductile grinding were studied respectively