An Improved Method of Minimizing Tool Vibration during Boring Holes in Large-Size Structures

Kaliński, Krzysztof J.; Galewski, Marek A.; Mazur, Michał; Stawicka-Morawska, Natalia

doi:10.3390/ma14164491

Cited by 4 publications

(2 citation statements)

References 37 publications

(62 reference statements)

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“…Houck III et al [19] achieved a new dynamic system by matching the natural frequency of the retainer with the natural frequency of the free-clamped boring bar. Kali'ski et al [20] proposed a new method for adjusting the rotational speed of the boring tool for the vibration suppression of large diameter holes for large workpieces. Nityananda et al [21] used an iterative inverse eigen sensitivity updating method to revise the finite element model of a boring bar.…”

Section: Introductionmentioning

confidence: 99%

Equivalent linearization of hyperelastic rubber rings in dynamic vibration absorber boring bar and simulation of its dynamic properties

Shi,

Ma,

et al. 2024

Eng. Res. Express

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A slight perturbation in high-speed precision cutting could cause violent vibration of boring bars, resulting in unexpected wear and failure of the structures. In this paper, the dynamical characteristic of a boring bar with a dynamic vibration absorber (DVA) is investigated. Considering that the nonlinear characteristics of the rubber ring play a significant role in improving the capacity of DVA, we proposed an equivalent linearization method for modeling hyperelastic rubber rings based on the experimental data of uniaxial tensile test. The relationship between the stiffness of rubber rings and the precompression parameter δ is established for two types of rubber. The equivalent linearization model shows good accuracy and calculation efficiency while the mass of the DVA is confined to a narrow space and the assumption of small strain is inherently satisfied. Numerical results show that the time cost of the equivalent linearization model is only 5% of the full hyperelastic model. Furthermore, the effect of different spring stiffnesses and damping on the dynamic characteristics of the boring bar is compared by using the equivalent linearization model, and the vibration peak of the DVA boring bar is found to be reduced about 45%. Our findings establish a simplified modeling scheme for choosing rubber rings in design of dynamic vibration absorbers with acceptable accuracy and little time cost, which could also give some reference for modeling of metal rubber and gel-like materials.

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Section: Introductionmentioning

confidence: 99%

Equivalent linearization of hyperelastic rubber rings in dynamic vibration absorber boring bar and simulation of its dynamic properties

Shi,

Ma,

et al. 2024

Eng. Res. Express

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“…In this context, small-diameter boring bars, despite their inherent low stability, are frequently utilized in certain applications where their use cannot be readily replaced. Consequently, researchers have directed their efforts towards improving machining parameters to enhance the process stability and optimize the turning performance when employing these small-diameter boring bars [6][7][8]. The use of small-diameter boring bars presents a complex challenge, as their reduced tool diameters necessarily result in lower rigidity and increased susceptibility to vibrations during machining.…”

Section: Introductionmentioning

confidence: 99%

The Selection of Cutting Speed to Prevent Deterioration of the Surface in Internal Turning of C45 Steel by Small-Diameter Boring Bars

Vopát,

Kuruc,

Pätoprstý

et al. 2024

Machines

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The turning of small-diameter deep holes is usually critical when the process of machining is unstable and the use of a special boring bar is often necessary. This paper is focused on the influence of cutting speed with a combination of cutting conditions such as feed and tool overhang on chatter marks, surface roughness and roundness of machined holes. In the experiment, two types of tool material for indexable boring bars were used, namely cemented carbide and steel. These are a group of boring bars used for the internal turning of holes of small diameters with indexable cutting inserts. Monolithic carbide boring bars are already used for internal turning of holes of even smaller diameters. Uncoated turning inserts made of cermet were used. The cutting tests were performed on the DMG CTX alpha 500 turning center. In the case of the steel boring bar, decreasing the cutting speed really led to an increase in the quality of the surface roughness and reduced the formation of chatter marks and large chatter marks. The cemented carbide boring bar also followed a similar trend, but it should be noted that the overall effect was not so great. This means that increasing the cutting speed makes the cutting process less stable and, vice versa, lower values of cutting speed reduce the formation of chatter marks and the related deterioration of the surface quality. The occurrence of chatter is directly related to the increase in the surface roughness parameters Ra and Rz of the machined surface. It can be stated that the dependence of roundness deviations on cutting speed values has a similar character to the results of the measured surface roughness values. Therefore, if the cutting speed is increased, it will make the cutting process less stable; this is also indirectly reflected in larger roundness deviations. However, it is necessary to state that this phenomenon can be observed in turning holes with small diameters using the steel boring bar, where the unstable cutting conditions materialized in the form of chatter marks.

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Improvement of the Efficiency of Fine Boring for Stepped Holes with a Large Diameter Range

Orgiyan

Oborskyi

Ivanov

et al. 2022

Lecture Notes in Mechanical Engineering

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An Improved Method of Minimizing Tool Vibration during Boring Holes in Large-Size Structures

Cited by 4 publications

References 37 publications

Equivalent linearization of hyperelastic rubber rings in dynamic vibration absorber boring bar and simulation of its dynamic properties

Equivalent linearization of hyperelastic rubber rings in dynamic vibration absorber boring bar and simulation of its dynamic properties

The Selection of Cutting Speed to Prevent Deterioration of the Surface in Internal Turning of C45 Steel by Small-Diameter Boring Bars

Improvement of the Efficiency of Fine Boring for Stepped Holes with a Large Diameter Range

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