Optimization strategy in end milling process for high speed machining of hardened die/mold steel

2006 ◽  
Vol 13 (3) ◽  
pp. 240-243 ◽  
Author(s):  
Ying Tang
Keyword(s):  
High Speed ◽  
End Milling ◽  
Milling Process ◽  
High Speed Machining ◽  
Optimization Strategy ◽  
End Milling Process

Predictive Model of Surface Roughness in High-Speed End Milling Process by Factorial Design of Experiments

2007 ◽  
Vol 339 ◽  
pp. 189-194
Author(s):  
Su Yu Wang ◽  
Xing Ai ◽  
Jun Zhao
Keyword(s):  
Surface Roughness ◽  
Design Of Experiments ◽  
Factorial Design ◽  
High Speed ◽  
End Milling ◽  
Milling Process ◽  
Regression Coefficients ◽  
Milling Parameters ◽  
Factorial Design Of Experiments ◽  
End Milling Process

Predictive models are presented for the surface roughness in high-speed end milling of 0.45%C steel and P20 die-mould steel based on statistical test and multiple-regression analysis. The data for establishing model is derived from experiments conducted on a high-speed machining centre by factorial design of experiments. The significances of the regression equation and regression coefficients are tested in this paper. The effects of milling parameters on surface roughness are investigated by analyzing the experimental curves.

Simulation of End Milling for Weak-Rigidity Structural Parts of Aluminium Alloy in Aviation

2011 ◽  
Vol 201-203 ◽  
pp. 332-336
Author(s):  
Chun Lin Fu ◽  
Cong Kang Wang ◽  
Tie Gang Li ◽  
Wan Shan Wang
Keyword(s):  
High Speed ◽  
End Milling ◽  
Element Model ◽  
Milling Process ◽  
Milling Force ◽  
Drilling Tool ◽  
Structural Parts ◽  
Aluminum Alloy 7075 ◽  
End Milling Process ◽  
Lower Material

To resolve the problem of the parts deformation because of the milling force, a finite element model (FEM) of end milling process simulation in milling force field was established. On the base of FEM, we simulate the high-speed end milling type structure of aluminum alloy 7075 parts. We successfully predict the end milling force, obtain the effect between the upper and lower material to the milling force, and Mises stress and the tool length beyond the part.The simulation results show that the lower material can increase the milling force to upper, and upper material can decrease milling force to lower layer.The drilling tool length beyond the part is about 0.5 mm .

Influence of Coating in Square End Mill Using In-Process Tool Wear Detection Based on Electrical Contact Resistance

2019 ◽  
Vol 13 (1) ◽  
pp. 125-132
Author(s):  
Amine Gouarir ◽  
Syuhei Kurokawa ◽  
Takao Sajima ◽  
Mitsuaki Murata ◽  
◽  
...  
Keyword(s):  
Tool Wear ◽  
Contact Resistance ◽  
High Speed ◽  
End Milling ◽  
Detection System ◽  
Electrical Contact ◽  
Milling Process ◽  
Electrical Contact Resistance ◽  
End Mills ◽  
End Milling Process

In this paper, a method using electrical contact resistance to monitor in-process tool wear is proposed. The high-speed tool wear detection system uses the contact resistance between the tool and workpiece as an indicator to monitor the progression of tool wear during cutting operations. The electrical resistance decreases with an increase in contact area on the tool flank. In our previous study, the objective was an end milling process using uncoated square end mills. In this experiment, our targets are solid and throw away coated square end mills. The experiment shows the present method to also be effective as an in-process tool wear detection system for coated square end mills.

scholarly journals Investigation on Effect of Material Hardness in High Speed CNC End Milling Process

2015 ◽  
Vol 2015 ◽  
pp. 1-6 ◽  
Author(s):  
N. V. Dhandapani ◽  
V. S. Thangarasu ◽  
G. Sureshkannan
Keyword(s):  
Surface Roughness ◽  
High Speed ◽  
Cutting Tool ◽  
End Milling ◽  
Removal Rate ◽  
Milling Process ◽  
Depth Of Cut ◽  
Study Results ◽  
Cnc End Milling ◽  
End Milling Process

This research paper analyzes the effects of material properties on surface roughness, material removal rate, and tool wear on high speed CNC end milling process with various ferrous and nonferrous materials. The challenge of material specific decision on the process parameters of spindle speed, feed rate, depth of cut, coolant flow rate, cutting tool material, and type of coating for the cutting tool for required quality and quantity of production is addressed. Generally, decision made by the operator on floor is based on suggested values of the tool manufacturer or by trial and error method. This paper describes effect of various parameters on the surface roughness characteristics of the precision machining part. The prediction method suggested is based on various experimental analysis of parameters in different compositions of input conditions which would benefit the industry on standardization of high speed CNC end milling processes. The results show a basis for selection of parameters to get better results of surface roughness values as predicted by the case study results.

Experimental Analysis of Cutter Engagement during High Speed End Milling of H13

2015 ◽  
Vol 1115 ◽  
pp. 70-73
Author(s):  
Mohammad Yuhan Suprianto ◽  
Erry Yulian T. Adesta ◽  
Muhammad Riza
Keyword(s):  
Cutting Force ◽  
High Speed ◽  
Tool Path ◽  
End Milling ◽  
Milling Process ◽  
Hard Material ◽  
Path Creation ◽  
Machining Center ◽  
Aisi H13 ◽  
End Milling Process

The aim of the present study is to investigate the influence of cutter engagement on cutting forces in end milling process of AISI H13 (48 HRc). The experiments were carried out on CNC vertical machining center. The machining conditions are as follows: Vc= 150, 200 and 250 m/min, fz= 0.05, 0.1 and 0.15 mm/tooth; a = 0.1, 0.15 and 0.2 mm for every cutting process. Central Composite Design with 20 runs was employed. Data analysis showed that cutter engagement influence the cutting force for the end milling process of hard material H13 in the same pattern to the similar experiment of different material. The present study of cutter engagement will be useful in tool path creation which is important for mold and die machining. The cutter engagement study related to cutting force in high speed end milling of AISI H13 has not yet been established. This study will help the NC programmers in choosing the suitable tool path that will give stable, productive, and more efficient milling process

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