Layer Face Milling Cutter Parametric Modeling and Modal Analysis

Ji, Sheng; Liu, Xian Li; Yan, Fu Gang; Yue, Cai Xu; Zhao, Xiaoting

doi:10.4028/www.scientific.net/amr.102-104.605

Cited by 4 publications

(1 citation statement)

References 3 publications

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“…These defects have a random shape (any form), and the contact length tool-work piece, is considered the length of defects as 1 mm and the height of wear has been studied for two cases: VB=0.1 and 0.2 mm. Ji et al [11] performed a modal analysis using FEM for optimization of layer face milling cutting tool structural and analysis of restrain vibration. Kashyzadeh et al [12] utilized computer simulation for identifying the effect of cutting tool construction and damping material on its natural frequency.…”

Section: Introductionmentioning

confidence: 99%

Feasibility studies for an enhanced flat bottom drill tool design considering modal and resonance using finite element methods

ZOGHIPOUR¹

2022

J Adv Manuf Eng

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The design of a cutting tool necessitates a comprehension of the applications and quandaries that may come across from manufacturing to the machining process. Developing technologies in components with complicated features and the competition among manufacturers in rapid and precision production leads to design and application of new types of cutting tools with sophisticated geometries. Besides sufficient cutting performance and dimensional accuracies, these tools are required to have setup rigidity, static and dynamic strength to prevent any damage to themselves, holders, and machine components. In this paper, flat bottom drills with various axial and radial rake angles have been designed and subjected to modal analyses using finite element methods. The first six natural frequencies, maximum total displacements, stiffnesses as well as the period of oscillation corresponding to the modes shape have been calculated for the designed tools. Based on the obtained results, it is seen that the designed flat bottom drills have acceptable stiffnesses and natural frequencies to be utilized in machining processes. Radial rake angle has a noticeable influence on the natural frequencies and stiffnesses of the system. Zoghipour, N., & Kaynak, Y. (2022). Feasibility studies for an enhanced flat bottom drill tool design considering modal and resonance using finite element methods. Cite this article as:

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Section: Introductionmentioning

confidence: 99%

Feasibility studies for an enhanced flat bottom drill tool design considering modal and resonance using finite element methods

ZOGHIPOUR¹

2022

J Adv Manuf Eng

View full text Add to dashboard Cite

show abstract

Optimum design and performance evaluation of layer face milling cutter for cutting 508III steel

Cheng

Jia

Nie

et al. 2018

Int J Adv Manuf Technol

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Research and development of parametric design platform for series complex cutting tools

Zhi

Yue

et al. 2022

Int J Adv Manuf Technol

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Metal cutting tool is an important part of machining, and its performance directly affects the manufacturing efficiency and machining quality of products. With the increasing demands in manufacturing industry of cutting performance, machining efficiency, customization and quick response, traditional tool design methods can no longer meet the above requirements due to many repetitive work, large amount of calculation, complex process and low efficiency. Parametric design has become a new development direction of customized tool design because of its fast, stable and accurate characteristics. In this paper, the parametric design of cutting tools is realized based on the process construction method of model generating history. The tool parametric design platform is developed by the method of secondary development of commercial CAD software. The platform realizes automatic operation in the background without the main interface of CAD software, completes the parametric modeling process of tools, generates 2D drawings and 3D models conforming to ISO 13399 standard, and realizes the cloud storage function of model data. The platform has simple operation and good man-machine interaction, and realizes the parametric design of many kinds of tools. Compare with that traditional modeling method, using this parametric modeling platform, the modeling efficiency is increased by 90% on average. This platform is of great significance to improve the design efficiency of complex customized tools and shorten the original design cycle by 30%.

show abstract

Layer Face Milling Cutter Parametric Modeling and Modal Analysis

Cited by 4 publications

References 3 publications

Feasibility studies for an enhanced flat bottom drill tool design considering modal and resonance using finite element methods

Feasibility studies for an enhanced flat bottom drill tool design considering modal and resonance using finite element methods

Optimum design and performance evaluation of layer face milling cutter for cutting 508III steel

Research and development of parametric design platform for series complex cutting tools

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