Automatic CNC milling of pockets: geometric and technological issues

This research proposes a new application of 3-axis CNC milling machine for polishing the 60 HRC hardness steels. The rotary polishing tools are designed by refer to the end-mill ball nose’s design. The diamond powder are coated in rotary polishing tools by resinoid bonding method and concentrated in 4.4 karat/cm2. The Zig-milling tool paths are used to polish the hardness steel. After polishing, the confocal laser scanning microscope is used to analyze the arithmetic mean surface roughness of the hardness steels. The L12 orthogonal array of the Taguchi’s method is selected to conduct the matrix experiment to determine the optimal polishing process parameters. The diamond grit size and cutting speed of the rotary polishing tools, feed rate and step over of the tool path, the depth of polishing process penetration, and polishing time are used to study. The combination of the optimal level for each factor of the hardness steel polishing process are used to study again in the confirmation experiment. The predicted signal to noise ratio of smaller - the better under optimal condition are calculated by using the data from the experiment. The combination of the optimal level for each factor are used to study again in the confirmation experiment and the result show that polishing time was a dominant parameter for the surface roughness and the next was depth of penetration. The response surface design is then used to build the relationship between the input parameters and output responses. The experimental results show that the integrated approach does indeed find the optimal parameters that result in very good output responses in the rotary polishing tools polished hardness mould steel using CNC milling machine. The mean surface roughness of hardness steel polishing process is improved by the diamond rotary tools with the 3-axis CNC milling machine.

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Machinery parameter optimization of CNC milling programming towards process time

Journal of Physics Conference Series ◽

10.1088/1742-6596/1517/1/012044 ◽

2020 ◽

Vol 1517 ◽

pp. 012044

Author(s):

E M Widodo ◽

T A Purnomo ◽

N Ariyanto

Keyword(s):

Parameter Optimization ◽

Process Time ◽

Cnc Milling

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Optimizing the Grinding Parameters on the CNC Milling Machine for Best Glass Edge Quality

Journal of Physics Conference Series ◽

10.1088/1742-6596/1885/3/032069 ◽

2021 ◽

Vol 1885 (3) ◽

pp. 032069

Author(s):

Xiaoyu Li ◽

Minbo Wang ◽

Liangbao Jiang ◽

Jiaxi Liu ◽

Jiaming Li ◽

...

Keyword(s):

Milling Machine ◽

Cnc Milling ◽

Cnc Milling Machine ◽

Grinding Parameters ◽

Edge Quality ◽

Glass Edge

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Study of Machining of Gears with Regular and Modified Outline Using CNC Machine Tools

Materials ◽

10.3390/ma14112913 ◽

2021 ◽

Vol 14 (11) ◽

pp. 2913

Author(s):

Rafał Gołębski ◽

Piotr Boral

Keyword(s):

Machine Tools ◽

Coordinate Measuring Machine ◽

Optical Microscope ◽

Numerical Control ◽

Cnc Machine Tools ◽

Cnc Milling ◽

Cnc Machine ◽

Cylindrical Gears ◽

Measuring Machine ◽

Five Axis

Classic methods of machining cylindrical gears, such as hobbing or circumferential chiseling, require the use of expensive special machine tools and dedicated tools, which makes production unprofitable, especially in small and medium series. Today, special attention is paid to the technology of making gears using universal CNC (computer numerical control) machine tools with standard cheap tools. On the basis of the presented mathematical model, a software was developed to generate a code that controls a machine tool for machining cylindrical gears with straight and modified tooth line using the multipass method. Made of steel 16MnCr5, gear wheels with a straight tooth line and with a longitudinally modified convex-convex tooth line were machined on a five-axis CNC milling machine DMG MORI CMX50U, using solid carbide milling cutters (cylindrical and ball end) for processing. The manufactured gears were inspected on a ZEISS coordinate measuring machine, using the software Gear Pro Involute. The conformity of the outline, the tooth line, and the gear pitch were assessed. The side surfaces of the teeth after machining according to the planned strategy were also assessed; the tests were carried out using the optical microscope Alicona Infinite Focus G5 and the contact profilographometer Taylor Hobson, Talysurf 120. The presented method is able to provide a very good quality of machined gears in relation to competing methods. The great advantage of this method is the use of a tool that is not geometrically related to the shape of the machined gear profile, which allows the production of cylindrical gears with a tooth and profile line other than the standard.

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Study on CNC Milling Heat and Residual Stress Relationship Model

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.693.900 ◽

2016 ◽

Vol 693 ◽

pp. 900-905

Author(s):

W.W. Song ◽

J.L. Wang ◽

H.F. Wang ◽

Dun Wen Zuo

Keyword(s):

Residual Stress ◽

Deformation Theory ◽

Metal Cutting ◽

Milling Process ◽

Cnc Milling ◽

Theoretical Support ◽

Cutting Heat ◽

Relationship Model ◽

Milling Temperature ◽

Problem Solving Process

In this paper, the effect of the cutting heat on the workpiece in the processing was studied. Its essence is to study relationship between the workpiece temperature variation and internal residual stress distribution. In the specific problem-solving process, the metal cutting theory, finite element related knowledge and metal elastoplastic deformation theory were combined, and established a mathematical model which was suitable for the model of the milling temperature and residual stress in the milling process. It would provide theoretical support for future study on milling deformation mechanism.

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