Research on the excitation characteristics of milling force for a general helix cutter

Improving the cutting efficiency is the major factor for improving the processing of nickel-based alloys. The novelty of this research is the calibrated SiAlON ceramic tool dry milling nickel-based alloy process. Firstly, the nickel-based alloy dry milling process was analyzed through the finite element method, and the required milling force and temperature were deduced. Then, several dry milling experiments were conducted with the milling temperature, and the milling force was monitored. The change in cutting speeds was from 400 m/min to 700 m/min. Experimental results verified the reduction of the dry milling force hypothesized by the simulation. The experiment also indicated that with a cut depth of 0.3 mm, cut width of 6 mm, and feed per tooth of 0.03 mm/z, when milling speed exceeded 527.52 m/min, the milling force began to decrease, and the milling temperature exceeded the nickel-based alloy softening temperature. This indicated that easy cutting could be realized under high-speed dry milling conditions. The interpolation curve about average temperature and average milling forces showed similarity to the tensile strength reduction with the rise of temperature.

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Effect of part-cutter deflection on flexible milling force in high speed peripheral milling process

International Technology and Innovation Conference 2009 (ITIC 2009) ◽

10.1049/cp.2009.1413 ◽

2009 ◽

Author(s):

Qi Houjun ◽

Zhang Dawei ◽

Yan Bing ◽

Cai Yujun

Keyword(s):

High Speed ◽

Milling Process ◽

Peripheral Milling ◽

Milling Force ◽

Cutter Deflection

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Milling force model prediction considering tool runout with three-teeth alternating disc cutter

The International Journal of Advanced Manufacturing Technology ◽

10.1007/s00170-021-06949-z ◽

2021 ◽

Author(s):

Yang Cheng ◽

Shi Yaoyao ◽

Xin Hongmin ◽

Zhang Nan

Keyword(s):

Model Prediction ◽

Disc Cutter ◽

Force Model ◽

Milling Force ◽

Tool Runout ◽

Milling Force Model

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Milling Force Prediction for Circular Contour Machining

Materials Science Forum ◽

10.4028/www.scientific.net/msf.800-801.243 ◽

2014 ◽

Vol 800-801 ◽

pp. 243-248

Author(s):

Kai Zhao ◽

Zhan Qiang Liu

Keyword(s):

Prediction Model ◽

Milling Process ◽

Machining Process ◽

Curvature Radius ◽

Force Model ◽

Milling Force ◽

Circular Contour ◽

The Mean ◽

Contour Machining ◽

Matlab Programming

When machining the complex parts of aircraft engines, the milling force for the circular contour must be accurately predicted to reduce machining vibration. In this paper, the prediction model of the mean milling force per tooth during machining circular contour is developed. Firstly, the formulas of the entry angle, the exit angle and the equivalent feed per tooth are established through the analysis of circular contour milling process. Then, the equation of the mean milling force per tooth is deduced based on mechanistic force model during the circular contour machining process. Finally, the prediction model of mean milling force per tooth during machining circular contour is developed using MATLAB programming. The relationship between the milling force per tooth and surface curvature radius of the machined workpiece is also analyzed in this paper.

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Experiment and Modeling of Milling Force Based on Tool Edge Preparation

Experimental Techniques ◽

10.1007/s40799-021-00517-6 ◽

2021 ◽

Author(s):

XF. Zhao ◽

Y. Yang ◽

L. He ◽

ZG. Feng

Keyword(s):

Milling Force ◽

Tool Edge ◽

Edge Preparation

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Characteristic element and milling force on column diamond milling cutter during the processing stone

2010 International Conference on Mechanic Automation and Control Engineering ◽

10.1109/mace.2010.5535852 ◽

2010 ◽

Author(s):

Qi Fenglian ◽

Lei Dongliang

Keyword(s):

Milling Force ◽

Milling Cutter ◽

Characteristic Element ◽

Diamond Milling

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Experimental Study on Machinability of Zr-Based Bulk Metallic Glass during Micro Milling

Micromachines ◽

10.3390/mi11010086 ◽

2020 ◽

Vol 11 (1) ◽

pp. 86 ◽

Cited By ~ 1

Author(s):

Tao Wang ◽

Xiaoyu Wu ◽

Guoqing Zhang ◽

Bin Xu ◽

Yinghua Chen ◽

...

Keyword(s):

Surface Roughness ◽

Metallic Glass ◽

Bulk Metallic Glass ◽

Feed Rate ◽

Rotation Speed ◽

Amorphous Structure ◽

Micro Milling ◽

Depth Of Cut ◽

Milling Force ◽

Coated Cemented Carbide

The micro machinability of Zr41.2Ti13.8Cu12.5Ni10Be22.5 bulk metallic glass (BMG) was investigated by micro milling with coated cemented carbide tools. The corresponding micro milling tests on Al6061 were conducted for comparison. The results showed that the tool was still in stable wear stage after milling 300 mm, and the surface roughness Ra could be maintained around 0.06 μm. The tool experienced only slight chipping and rubbing wear after milling the BMG, while a built-up edge and the coating peeling off occurred severely when milling Al6061. The influence of rotation speed on surface roughness was insignificant, while surface roughness decreased with the reduction of feed rate, and then increased dramatically when the feed rate was below 2 μm/tooth. The surface roughness increased gradually with the axial depth of cut (DOC). Milling force decreased slightly with the increase in rotation speed, while it increased with the increase in axial DOC, and the size effect on milling force occurred when the feed rate decreased below 1 μm/tooth. The results of X-ray diffraction (XRD) showed that all milled surfaces were still dominated by an amorphous structure. This study could pave a solid foundation for structural and functional applications.

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Study on Mathematical Model of High Speed Milling Force for Plastic Mold Steel 3Cr2Mo

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.291-294.710 ◽

2011 ◽

Vol 291-294 ◽

pp. 710-714

Author(s):

Jun Min Xiao ◽

Ying Xu

Keyword(s):

Experimental Data ◽

Mathematical Model ◽

High Speed ◽

High Hardness ◽

Milling Force ◽

High Speed Milling ◽

Engineering Requirement ◽

Practical Engineering ◽

Cad Cam ◽

Plastic Mold

Mold steel 3Cr2Mo has been used widely in manufacturing of plastic mold formed parts, owing to fine mechanical properties. However, it is also very difficult to cut mold formed parts of steel 3Cr2Mo due to high hardness. Ordinary NC cutting method of steel 3Cr2Mo is unable to relate to modern mold manufacturing due to bad cutting property, so it is extremely significant for improving cutting property of steel 3Cr2Mo to study the high speed milling technology. On the basis of improving the traditional cutting force formula, the mathematical model of high speed milling force for steel 3Cr2Mo was derived and solved by using the experimental data and constructing matrix equation based on MATLAB software. Comparing with experimental data, the error of mathematical model of high speed milling force could be controlled within 6 percent. Due to high precision the model of high speed milling force can meet practical engineering requirement and has great value in the fields of CAD/CAM/CAE.

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