"Analyses and results of experiments in this article show possibilities of the escalation of tool strength under rotation by constructional adaptation of grinding wheel. The article mentions possibilities of the shape improvement and quality material for grinding, combining newly developed firmer adhesives, if needed all-metal grinding tools, enables safety application of cutting speed markedly excessing 100 ms-1 and thus, productivity improvement of grinding operation." . . "2"^^ . . . "High Speed; Grinding; Simulation; Grinding Wheel"@en . "346188" . . "Theory, Simulation and Results of High-Speed Grinding Process" . . "Theory, Simulation and Results of High-Speed Grinding Process" . "2"^^ . . "N" . "254"^^ . . . . "Analyses and results of experiments in this article show possibilities of the escalation of tool strength under rotation by constructional adaptation of grinding wheel. The article mentions possibilities of the shape improvement and quality material for grinding, combining newly developed firmer adhesives, if needed all-metal grinding tools, enables safety application of cutting speed markedly excessing 100 ms-1 and thus, productivity improvement of grinding operation."@en . . . "Theory, Simulation and Results of High-Speed Grinding Process"@en . "23"^^ . "B\u00EDlek, Ond\u0159ej" . . "RIV/70883521:28110/09:63508222" . "Rijeka" . "Theory, Simulation and Results of High-Speed Grinding Process"@en . . . . "[211833397C14]" . . "Concurent Product and Technology Development" . "Fintrade and Tours" . "28110" . "RIV/70883521:28110/09:63508222!RIV10-MSM-28110___" . "978-953-96899-9-3" . "Lukovics, Imrich" .