The Study of the Multi-Body System Theory on Basis of CNC Milling Machine Error

CNC machine, especially CNC milling machine, is the main production equipment in the industries of machinery, iron and steel, automobile manufacturing and so on. However, the errors are the main constraints to the processing quality and the precision measurement of CNC machine. Based on the multi-body system theory, the article models the error of Siemens CNC milling machine. In terms of the analysis of the error model, it is argued that the processing precision of CNC milling machine can be improved through controlling and compensating the error in the process of installation and manufacturing.

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Study on Kinematic Features of CNC Machine Based on Multi-Body System Theory with Error Modeling

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.676.149 ◽

2013 ◽

Vol 676 ◽

pp. 149-152

Author(s):

Er Bao Peng ◽

Yu Hua Zhang ◽

Hong Ying Wang

Keyword(s):

System Theory ◽

Production Equipment ◽

Error Modeling ◽

Milling Machine ◽

Cnc Milling ◽

Body System ◽

Cnc Machine ◽

Iron And Steel ◽

Cnc Milling Machine ◽

Multi Body

CNC machine, especially CNC milling machine, is the main production equipment in the industries of mechanics, iron and steel, automobile manufacturing and so on. However, the errors are the main constraints to the processing quality and the precision measurement of CNC machine. Based on the multi-body system theory, the article models the error of Siemens CNC milling machine and kinematic. In terms of the analysis of the error model, it is argued that the processing precision of CNC milling machine can be improved through controlling and compensating the error in the process of installation and manufacturing.

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Sensitivity Analysis of Geometric Errors for Five-Axis CNC Machine Tool Based on Multi-Body System Theory

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.271-272.493 ◽

2012 ◽

Vol 271-272 ◽

pp. 493-497

Author(s):

Wei Qing Wang ◽

Huan Qin Wu

Keyword(s):

System Theory ◽

Sensitivity Analysis ◽

Machine Tool ◽

Geometric Error ◽

Machining Accuracy ◽

Geometric Errors ◽

Body System ◽

Cnc Machine ◽

Multi Body ◽

Five Axis

Abstract: In order to determine that the effect of geometric error to the machining accuracy is an important premise for the error compensation, a sensitivity analysis method of geometric error is presented based on multi-body system theory in this paper. An accuracy model of five-axis machine tool is established based on multi-body system theory, and with 37 geometric errors obtained through experimental verification, key error sources affecting the machining accuracy are finally identified by sensitivity analysis. The analysis result shows that the presented method can identify the important geometric errors having large influence on volumetric error of machine tool and is of help to improve the accuracy of machine tool economically.

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CREATING HOLES IN SOUND-ABSORBING STRUCTURES DURING MOLDING

Proceedings of VIAM ◽

10.18577/2307-6046-2020-0-11-93-101 ◽

2020 ◽

pp. 93-101

Author(s):

V.S. Dyshenko ◽

◽

M.I. Minibaev ◽

M.N. Usacheva ◽

◽

...

Keyword(s):

Tensile Strength ◽

Carbon Fiber ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Special Equipment ◽

Cnc Milling Machine

Monolithic samples are made of carbon fiber based on fabrics that are cured by infusion. Perforation is carried out on a CNC milling machine after confirmation and on special equipment until confirmation. Samples are cut from the plate at an angle of 4–5°, as the orientation of the holes in real sound-absorbing structures. Samples tested for tensile strength according to GOST 56785–2015. Samples cut from plates made by molding give 25% higher results than samples obtained by processing on a CNC machine.

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Robotic Handling of Jet Engine Turbine Blade Using Collaborative Robot

Volume 2B: Advanced Manufacturing ◽

10.1115/imece2020-23388 ◽

2020 ◽

Author(s):

Prateek Sahay ◽

Janet Dong ◽

Caleb Bisig ◽

Ou Ma

Keyword(s):

Turbine Blade ◽

Material Handling ◽

Cost Effective ◽

The Body ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Jet Engine ◽

Cnc Milling Machine ◽

Collaborative Robot

Abstract The work discussed in this paper is a part of the project to build an automated robotic cell for removing two tabs from a Jet Engine Turbine Blade using a 3-axis CNC milling machine and for laser marking several lines of part information onto the blade body. The two tabs are extensions of the Turbine Blade, in which the necessary part information is ingrained. The part information is used as the identification of the Turbine Blade throughout its entire manufacturing process. The two tabs also serve as anchors during the milling of the body of the Turbine Blade in a 5-axis CNC machine. Once the milling of the blade body is done, the two tabs will be removed from the blade body. Removing tabs is currently being done in the same 5-axis CNC milling machine. It is expensive and wastes 5-axis machine time. Therefore, using a 3-axis CNC milling machine to remove tabs is proposed with a robot to tend machines to be cost-effective. Due to the complexity of the Turbine Blade having 3-D wavy geometry, it adds challenges in undertaking any operations on the blade with automation. As automation is becoming relevant in many industries including the Aerospace, the method discussed in this paper can be used as a general guideline for carrying out material handling tasks with a thin part of wavy geometry by using a collaborative robot.

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Accuracy Measurement and Error Compensation of Three-Axis CNC Milling Machine

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.651-653.616 ◽

2014 ◽

Vol 651-653 ◽

pp. 616-619 ◽

Cited By ~ 1

Author(s):

Jin Ying Chen

Keyword(s):

Error Compensation ◽

Laser Interferometer ◽

Cnc Machine Tools ◽

Machining Accuracy ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Factors Affecting ◽

Accuracy Measurement ◽

Cnc Milling Machine

Through the methods using combination ball-bar with laser interferometer, we carry on accuracy measurement and error compensation of three-axis CNC milling machine. We finally find out the main factors affecting the machining accuracy of machine tool. In the meantime we can improve repeatability of positioning accuracy and the machine's positioning and meet the processing needs by means of the existing error compensation of the CNC machine tools.

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Optimizing the Machining Parameters in Glass Grinding Operation on the CNC Milling Machine for Best Surface Roughness

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.154-155.721 ◽

2010 ◽

Vol 154-155 ◽

pp. 721-726 ◽

Cited By ~ 1

Author(s):

Mohd Sayuti ◽

Ahmed Aly Diaa Mohammed Sarhan ◽

Mohd Hamdi Bin Abd Shukor

Keyword(s):

Surface Roughness ◽

Machining Process ◽

Depth Of Cut ◽

Response Analysis ◽

Machining Parameters ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Cnc Milling Machine ◽

Tool Diameter

Glass is one of the most difficult materials to be machined due to its brittle nature and unique structure such that the fracture is often occurred during machining and the surface finish produced is often poor. CNC milling machine is possible to be used with several parameters making the machining process on the glass special compared to other machining process. However, the application of grinding process on the CNC milling machine would be an ideal solution in generating special products with good surface roughness. This paper studies how to optimize the different machining parameters in glass grinding operation on CNC machine seeking for best surface roughness. These parameters include the spindle speed, feed rate, depth of cut, lubrication mode, tool type, tool diameter and tool wear. To optimize these machining parameters in which the most significant parameters affecting the surface roughness can be identified, Taguchi optimization method is used with the orthogonal array of L8(26). However, to obtain the most optimum parameters for best surface roughness, the signal to noise (S/N) response analysis and Pareto analysis of variance (ANOVA) methods are implemented. Finally, the confirmation test is carried out to investigate the improvement of the optimization. The results showed an improvement of 8.91 % in the measured surface roughness.

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Technological Development of CNC Machine Tool for Machining Soft Materials

10.5772/intechopen.96616 ◽

2021 ◽

Author(s):

Laura Tobon Ospina ◽

Carlos Alberto Vergara Crismatt ◽

Juan David Arismendy Pulgarin ◽

Sebastian Correa Zapata ◽

Yomin Estiven Jaramillo Munera ◽

...

Keyword(s):

Machine Tools ◽

Technological Development ◽

Soft Materials ◽

Free Software ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Cnc Milling Machine ◽

Metalworking Industry ◽

A Company

In recent years, the process carried out in the GACIPE research group is related to the development of the base technology of the manufacturing and metalworking industry. The machine tools that are vital for the consolidation and competitiveness of the industry in any country has been approached through two approaches: The design and construction of the new machine. In this aspect, the modeling of the structure and the displacements’ parameterization allows defining the precision of the movements and the rational use of energy. The adaptation and repowering of a used machine. In this approach, the recovery and technological updating proposed to recover its performance, becoming an excellent alternative to improving and perfecting the production of a company. In both cases, the CNC milling machine tools are controlled by free software. The application proposed is mechanized in soft materials.

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Development and Implementation of a Mini CNC Milling Machine

Acta Marisiensis. Seria Technologica ◽

10.2478/amset-2021-0014 ◽

2021 ◽

Vol 18 (2) ◽

pp. 24-28

Author(s):

Tran Thanh Tung ◽

Nguyen Xuan Quynh ◽

Tran Vu Minh

Keyword(s):

Manufacturing Industry ◽

Low Cost ◽

Machine Building ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Machine Model ◽

Cnc Milling Machine ◽

Teaching Aid ◽

Cad Models

Abstract The development of mechanical processing machines with integrated CNC systems allows the manufacturing industry to produce complex products quickly with high quality. CNC has become a main course for mechanical students in technical and vocational universities. CNC machine training is required to enhance student’s skills to learning in design and manufacturing technology. However, the cost to buy a CNC machine is not cheap. In a developing country like Vietnam, along with the limited budget of most universities, this is an obstacle for students to have the opportunity to use CNC machines. To help students have a teaching aid in learning, improve practice capacity. The article proposes an alternative to design and manufacture a simple, inexpensive milling machine with all the required functions. The CAD models design of the machine model structure were done using Solidwork and NX software. Most of the machine’s parts are manufactured and assembled in the Faculty of Engineering Mechanics and Automation laboratory of Engineering and Technology, Vietnam National University Hanoi. The study’s main objective is to propose a process for designing and manufacturing a mini vertical 3-axis CNC milling machine with low cost but full features similar to an industrial CNC machine. The machine model introduced in the article can be used as a teaching aid, improving practical capacity for students of machine building

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Research on Precision Detection and Error Compensation Technology for 3-Axis CNC Milling Machine

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.455.505 ◽

2013 ◽

Vol 455 ◽

pp. 505-510

Author(s):

Hong Hai Xu ◽

Chen Dai

Keyword(s):

Error Detection ◽

Error Compensation ◽

Compensation Effect ◽

Milling Machine ◽

Cnc Milling ◽

Cnc Machine ◽

Transformation Theory ◽

Cnc Milling Machine ◽

Coordinates Transformation ◽

Theory Error

Error detection and compensation technology is an economical and effective method for improving the precision of CNC machine tool. The paper established the geometric errors model of three-axis CNC milling machine based on homogeneous coordinates transformation theory. Error detection is tested by digital ball bar and error compensation software is developed for XK7132 milling machine, the compensation effect is evaluated by a laser interferometer. The results show that the precision of CNC milling machine is improved effectively by the proposed method.

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