2014
DOI: 10.1007/s11740-014-0583-6
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Synthesis of cylindrical gears with optimum rolling fatigue strength

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Cited by 20 publications
(5 citation statements)
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“…This significantly expands the possibilities and application area of this research field, as well as providing a significant reduction in the cost of experimental research. In particular, it is relevant in the study of mechanical property generation patterns in subsurface layers of complex-profile parts [10,11] with the use of spatial cutting processes. Spatial cutting processes are characterized by a significant variability in the contact conditions between the tool and the machined material, of which end milling is a striking representative, generating a significant gradient of mechanical properties in the subsurface layers, which is all the more aggravated in the case of hard-to-machine metals and alloys [12].…”
Section: Introductionmentioning
confidence: 99%
“…This significantly expands the possibilities and application area of this research field, as well as providing a significant reduction in the cost of experimental research. In particular, it is relevant in the study of mechanical property generation patterns in subsurface layers of complex-profile parts [10,11] with the use of spatial cutting processes. Spatial cutting processes are characterized by a significant variability in the contact conditions between the tool and the machined material, of which end milling is a striking representative, generating a significant gradient of mechanical properties in the subsurface layers, which is all the more aggravated in the case of hard-to-machine metals and alloys [12].…”
Section: Introductionmentioning
confidence: 99%
“…Three-dimensional numerical models of machining processes using unstable end cutting tools with continuously varying contact conditions between the tool and the machined material [5] offer a significant benefit [6,7]. It is considerably difficult to realize models of such cutting processes for machining complex periodic [8] and non-periodic [9] surfaces of various machine and mechanism parts. Oblique non-free cutting processes with a complex stress-strain state of the machined material and end cutting tools used for machining such parts are very sensitive to the complex conditions of thermomechanical loads acting in the cutting zones [10].…”
Section: Introductionmentioning
confidence: 99%
“…These are the characteristics generated by the various cutting processes that are responsible for the sought-performance properties [2]. The relationship between mechanical characteristics and performance properties is particularly significant for critical complex-profile parts [3] functioning in alternating and high contact loads [4]. The mechanical characteristics of the machined subsurface layers of parts that correlate quite closely with various performance properties of these parts include the characteristics of the machined material structure, microhardness of these layers [5], distribution of residual stresses in these layers [6], and the surface integrity of the Metals 2024, 14, 683 2 of 19 machined parts [5,7].…”
Section: Introductionmentioning
confidence: 99%