Experimental Study on Wear and Fracture of Ball-End Milling Cutter in High Speed Machining Stainless Steel 0Cr13Ni4Mo

2013 ◽  
Vol 770 ◽  
pp. 3-6
Author(s):  
Dong Chen ◽  
Guang Yu Tan ◽  
Guang Jun Liu ◽  
Guang Hui Li
Keyword(s):  
Experimental Study ◽  
Stainless Steel ◽  
High Speed ◽  
End Milling ◽  
Cutting Edge ◽  
High Speed Photography ◽  
High Speed Machining ◽  
Rake Face ◽  
Milling Cutter ◽  
Ball End Milling

An experimental study on wear and fracture of ball-end milling cutter in high speed machining martensitic stainless steel 0Cr13Ni4Mo is studied in this work. Through the SEM micrographs and energy spectrum analysis of the wear pattern of the rake face, severe coating spalling is found near the main cutting edge. Fracture is seen on the entire cutting edge, in which micro-chipping occurs on the both ends of the cutting edge, and chipping occurs in the middle of the cutting edge and is the conchoidal spalling on the rake face. Combined with the high-speed photography of the milling process, the fracture area is consistent with the chip-adhesion area.

Cutting edge wear in high-speed stainless steel end milling

2021 ◽  
Author(s):  
Mohammad Malekan ◽  
Camilla D. Bloch-Jensen ◽  
Maryam Alizadeh Zolbin ◽  
Klaus B. Ørskov ◽  
Henrik M. Jensen ◽  
...  
Keyword(s):  
Stainless Steel ◽  
High Speed ◽  
End Milling ◽  
Cutting Edge ◽  
Edge Wear

Parametric Design of Ball-End Milling Tools for High Speed Milling

2014 ◽  
Vol 800-801 ◽  
pp. 484-488
Author(s):  
Cai Xu Yue ◽  
Fu Gang Yan ◽  
Lu Bin Li ◽  
Hai Yan You ◽  
Qing Jie Yu
Keyword(s):  
High Speed ◽  
Parametric Design ◽  
End Milling ◽  
Complex Surface ◽  
Cutting Parameters ◽  
Secondary Development ◽  
Design System ◽  
Work Piece ◽  
Milling Cutter ◽  
Ball End Milling

Ball-end milling cutter is widely used in machining complex surface parts , and it is need to select a reasonable geometric parameters of the milling cutter for different work piece materials and shapes and cutting parameters. This article is based on UG secondary development technology to develop the Multi-blade ball-end milling cutter parametric design system, it is automatic, fast and efficient to build all kinds of parameters of double, three and four blades ball-end milling cutter model required for user.

Grinding Process of Ball End Milling Cutter Flank

2018 ◽  
Vol 764 ◽  
pp. 383-390 ◽  
Author(s):  
Quan Qi Xin ◽  
Tai Yong Wang ◽  
Zhi Qiang Yu ◽  
Hong Yan Hu
Keyword(s):  
Mathematical Model ◽  
End Milling ◽  
Cutting Edge ◽  
Grinding Wheel ◽  
Grinding Process ◽  
Milling Cutter ◽  
Ball End Milling ◽  
Position And Orientation ◽  
The Mathematical Model

In this paper, the mathematical model of "S" - shaped cutting-edge curve is optimized, and the position and orientation of the grinding wheel of the first and second flank of the ball end milling cutter are calculated, The correctness of the algorithm is verified by VERICUT simulation.

Influence Characteristics of Cutting-Contact Stress on the Wear of Milling Cutter in High Speed Ball-End Milling Hardened Steel

2012 ◽  
Vol 500 ◽  
pp. 192-197
Author(s):  
Bin Jiang ◽  
Pei Yi Zhao ◽  
Yong Zhong Wang ◽  
Yi Hang Fan
Keyword(s):  
Wear Rate ◽  
Contact Stress ◽  
High Speed ◽  
End Milling ◽  
Cutting Parameters ◽  
Hardened Steel ◽  
Curvature Radius ◽  
Milling Cutter ◽  
Ball End Milling ◽  
Pressure Stress

Adopted the cutting-contact model of high speed ball-end milling hardened steel surfaces, researched distribution characteristics of cutting-contact stress; by researching the influence of the distribution of this stress on cutter wear, clarified the influence theory of milling pattern and cutting parameters on initial wear of milling cutter. By using the method of climbing, conventional milling alternating and changing cutting parameters, verified the influence of milling pattern and cutting parameters on initial wear pattern. The result showed that, initial wear mechanism of high speed milling hardened steel is an interaction of multiple wear mechanisms under the effect of friction and alternating pressure stress, by using conventional milling can significantly reduce concave curvature radius of hardened steel, the contact stress of blade area and front, rear flank, inhibit crushing and wear rate of the milling cutter surfaces. Under this condition, by increasing rotation speed and reducing the feed per blade, will further increase the strength of this effect, and achieve the purpose of reducing the initial wear, inhibiting the wear rate and extending the cutters life.

scholarly journals Study on the Design and Cutting Performance of a Revolving Cycloid Milling Cutter

2019 ◽  
Vol 9 (14) ◽  
pp. 2915 ◽  
Author(s):  
Guangyue Wang ◽  
Xianli Liu ◽  
Weijie Gao ◽  
Bingxin Yan ◽  
Tao Chen
Keyword(s):  
Titanium Alloy ◽  
End Milling ◽  
Tangential Force ◽  
Boundary Curve ◽  
Cutting Performance ◽  
Machining Process ◽  
Rake Face ◽  
Milling Cutter ◽  
Ball End Milling ◽  
Five Axis

Problems such as low machining efficiency, severe tool wear and difficulty in safeguarding surface quality always exist in the machining process of titanium alloy with ball-end milling cutters. To address these issues, the design and manufacture of a revolving cycloid milling cutter for titanium alloy processing were studied in this paper. Firstly, the mathematical model of the revolving cycloid milling cutter contour surface was established. The parametric equation of an orthogonal helix cutting edge curve of a revolving cycloid milling cutter is presented. Then, the bottom boundary curve of the rake face is introduced. The five-axis grinding trajectory equation of revolving cycloid milling cutter rake face was derived based on the edge curve equation and coordinate transformation. Next, fabricating the revolving cycloid milling cutter and detecting the grinding accuracy of tool profile and geometric angle were performed. At last, a contrast test regarding the performance of the revolving cycloid milling cutter and the ball-end milling cutter in cutting titanium alloy TC11 was carried out. According to the test results, in comparison to the ball-end milling cutter, the revolving cycloid milling cutter had a smaller ratio of the axial force to the tangential force. Moreover, its flank face wore more slowly and evenly. As a result, a good surface processing quality can be maintained even under larger wear conditions, demonstrating an outstanding cutting performance.

scholarly journals Study on mechanical properties of titanium alloy with micro-texture ball-end milling cutter under different cutting edges

2020 ◽  
Vol 12 (7) ◽  
pp. 168781402090842
Author(s):  
Shucai Yang ◽  
Shuai Su ◽  
Xianliang Wang ◽  
Wei Ren
Keyword(s):  
Titanium Alloy ◽  
End Milling ◽  
Cutting Edge ◽  
Milling Force ◽  
Milling Cutter ◽  
Ball End Milling ◽  
Edge Geometry ◽  
Optimum Parameters ◽  
Cutting Surface ◽  
Texture Parameters

When precision cutting titanium alloy, the cutting part of cutting tool is mainly concentrated in the cutting edge area, so there is a strong emphasis upon the cutting edge’s geometric parameters. Studies have found that putting a micro-texture on the cutting surface can reduce the cutting force. This article looks at the milling force involved in cutting titanium alloy with a micro-textured ball-end milling cutter with different shaped cutting edges. First, a milling model relating to different cutting edges is established based on the traditional model of milling force. Then, the effects of different cutting edge geometry parameters and micro-texture parameters on milling force are simulated and tested using a finite element method. With milling force serving as the evaluation index, the optimum micro-texture parameters for a blunt circular cutting edge are a micro-pit diameter of 40 μm, a distance between micro-pits of 175 μm, a distance from the cutting edge of 110 μm, and a blunt circle radius of 60 μm. For a negative chamfer edge, the optimum parameters were a micro-pit diameter of 50 μm, a distance between micro-pits of 175 μm, a distance from the cutting edge of 120 μm, an edge width of 200 μm, and an edge angle of 10°.

Dynamics Characteristics of High Speed Ball-End Milling Cutter for Machining Hardened Steel

2010 ◽  
Vol 455 ◽  
pp. 127-131
Author(s):  
Bin Jiang ◽  
Min Li Zheng ◽  
Jun Zhou ◽  
D.H. Xia
Keyword(s):  
Cutting Force ◽  
High Speed ◽  
End Milling ◽  
Hardened Steel ◽  
Milling Cutter ◽  
High Speed Milling ◽  
Ball End Milling ◽  
Modal Characteristics ◽  
Dynamic Cutting Force ◽  
Cutting Vibration

In order to depress cutter vibration caused by high hardness and periodic change of cutting force in high speed milling complex surface, investigated the modal characteristics of ball-end milling cutter through the modal analysis and transient analysis. Using the models of dynamic cutting force and cutting vibration, acquired dynamics characteristics of high speed ball-end milling cutter by the spectrum analysis of dynamic cutting force, simulation analysis of cutting vibration and experiment of high speed milling hardened steel. Results indicate that high speed ball-end milling energy concentrates in few special frequencies, the rotational speed and the numbers of cutter teeth determine the fundamental frequency. High speed ball-end milling cutter easily makes radial bending vibration by the lower modal characteristics, the overhang and inclination angle of cutter affect its dynamics characteristics significantly, and the modal parameters and vibration model of cutter acquired by step response method have higher credibility.

Thermo-mechanical coupling behaviour when milling titanium alloy with micro-textured ball-end cutters

2020 ◽  
Vol 234 (6) ◽  
pp. 562-575
Author(s):  
Minli Zheng ◽  
Chunsheng He ◽  
Shucai Yang
Keyword(s):  
Titanium Alloy ◽  
High Speed ◽  
Simulation Analysis ◽  
End Milling ◽  
Coupling Effect ◽  
Theoretical Calculations ◽  
Milling Cutter ◽  
Ball End Milling ◽  
Mechanical Coupling ◽  
Coupling Behavior

The high-speed milling of titanium alloy is a very complex nonlinear dynamic cutting process, and there are mutual coupling effects between multiple physical fields of the tool. Therefore, the thermo-mechanical coupling behavior of micro-textured ball-end milling cutters during the cutting of titanium alloy was studied in depth, combined with theoretical calculations, milling experiments and simulation analysis. First, based on the experimental data of milling titanium alloy, the stress field of the micro-textured ball-end milling cutter was solved. Then, the dimensional method was used to solve the temperature field of the micro-textured ball-end milling cutter. Finally, the thermo-mechanical coupling simulation analysis of the micro-textured ball-end milling cutter was carried out, and the stress concentration area and tool breakage area of the micro-textured ball-end milling cutter under the thermo-mechanical coupling effect are obtained. This in turn gives a theoretical basis for further improving the performance and tool life of micro-textured cutters.

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