Relevant bibliographies by topics / Gantry machining center

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Academic literature on the topic 'Gantry machining center'

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Published: 28 June 2021

Last updated: 2 February 2022

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Journal articles on the topic "Gantry machining center"

Cao, Li Jie, Wei Fang Chen, Yu Zhi Chen, and Wen Hua Ye. "Fast Design and Analysis of Large Gantry Machining Center Based on Unit Structure." Applied Mechanics and Materials 490-491 (January 2014): 682–86. http://dx.doi.org/10.4028/www.scientific.net/amm.490-491.682.

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Large gantry machining centers are used for machining of products in almost all industry. To raise the design and production efficiency of machining centers, an integrated method of fast design and analysis is proposed in this paper. Firstly, large components unit structures are decomposed and extracted based on functions and structures. Then, after conducting fast analysis using APDL programming, a method of Comprehensive Evaluation is employed to optimal select the design schemes. Finally, the column of large gantry machining center QLMT6300 is taken as example to illustrate the validity of the method presented.

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Tang, Yan Yun, Ze Yu Weng, Li Ka Fang, Xiang Gao, Jian De Hu, Xue Zhe Tang, and Yan Qing Zhen. "Dynamic Characteristics Analysis of Gantry Machining Center Structure." Advanced Materials Research 819 (September 2013): 24–28. http://dx.doi.org/10.4028/www.scientific.net/amr.819.24.

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The dynamic performance of modern machine tools is more and more highly emphasized. The research purpose of this paper is to research dynamic performance of gantry machining center through modal experiment. In this paper, the theory of relative excitation test on the machine tool is expounded, and relative excitation test is carried on gantry machining center and then the modal parameters of this machine tool are obtained through experimental modal analysis. Analyze the weak link of this gantry machining center, show that the stiffness of Z direction of Z to feed component of this machine tool is insufficient and the stiffness of X, Y direction of ram is insufficient.

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Huang, Qing, Wei Fang Chen, Wen Hua Ye, Pei Huang Lou, and Shi Hao Liu. "Optimization Design for the Large Gantry Machining Center Crossbeam." Applied Mechanics and Materials 130-134 (October 2011): 2284–87. http://dx.doi.org/10.4028/www.scientific.net/amm.130-134.2284.

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The crossbeam is an important part in the gantry machining center which greatly affects the machining accuracy. Four kinds of crossbeam structure for the large machining center were designed and their static and dynamic characteristics were analyzed. The optimal crossbeam structure was selected by the comprehensive performance evaluation method. Then the thicknesses of rib plates in the crossbeam were defined as the optimization parameters after conducting the sensitivity analysis. The first four natural frequencies were defined as the objective functions and the static performance and the mass were defined as the constraint conditions. The optimal sizes of the rib plates in the crossbeam were obtained by the optimization analysis. Finally the feasibility of the result was demonstrated by the simulation. The result indicated that with the mass increased only by 0.18%, the first four natural frequencies of the optimal crossbeam were increased by 19.56%, 19.45%, 19.84%, 17.05%.

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Liu, Chun Fang, Yin Long Xing, and Tong Wang. "Gantry Mobile Machining Center Magnetic Suspension System Fuzzy Synchronization Control Based on Disturbance Observer." Advanced Materials Research 433-440 (January 2012): 7407–12. http://dx.doi.org/10.4028/www.scientific.net/amr.433-440.7407.

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For gantry CNC Machining Center Gantry suspension system, adopting a method of fuzzy synchronization controller and disturbance observer combined control strategy. The disturbance observer Robust feedback controller design compensate the disturbance caused by cutting the time, un-modeled dynamics, system parameter changes, ensure the robustness of a single suspension system. In order to further suppress the gantry beams carrying knife leaning, on the double suspension synchronization system uses fuzzy synchronization control strategy, the two systems through the design of the regulating role of fuzzy controller, and further to overcome suspension height deviation of the double suspension systems, to achieve synchronized suspension purposes. Simulation results show that the proposed control scheme in ensuring the system to achieve stability synchronization suspension, but also has strong robustness, dynamic process synchronization error is small, allowing to meet high accuracy requirements of the controlled objects.

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Huang, Hong Bing, Yong Ming Wang, and Shuai Xia. "Spindle System Dynamic Characteristics Analysis of Vertical Gantry Machining Center." Applied Mechanics and Materials 456 (October 2013): 286–90. http://dx.doi.org/10.4028/www.scientific.net/amm.456.286.

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With the spindle system of a vertical gantry machining center as the research object, based on the vibration theory and finite element method, the modal analysis of spindle system is studied. Firstly, the finite element models of the mandrel box body and motorized spindle frame of spindle system are established by ANSYS. And then do the modal analysis of singleton in the boundary of free constraint. Lastly, based on the analysis results to establish the finite element model of the whole spindle system and do the modal analysis of the whole system which under constraint condition. The result shows that the swing of motorized spindle frame and motorized spindle sleeve of spindle system are more obvious.

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Liu, Shihao, Wenhua Ye, Peihuang Lou, Weifang Chen, Jungui Huang, and Lili Xiao. "Bionic Design for Column of Gantry Machining Center to Improve the Static and Dynamic Performance." Shock and Vibration 19, no. 4 (2012): 493–504. http://dx.doi.org/10.1155/2012/545931.

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In order to improve the machining accuracy of a gantry machining center, structural bionic design for column was conducted. Firstly, the bionic design method for stiffener plate structure was established based on distribution principles of gingko root system. The bionic design method was used to improve column structure of the gantry machining center, and three kinds of bionic columns were put forward. The finite element analysis on original and bionic columns indicates that the mass of the column with the best bionic stiffener plate structure is reduced by 2.74% and the first five order natural frequencies are increased by 6.62% on average. The correctness of column's bionic design method proposed in this paper was verified by the static and dynamic experiments. Finally, the bionic principles for stiffener plate of column were concluded, which provides a new idea for updating traditional design concepts and achieving lightweight structure of machine tool components.

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Luo, Pan, Zhong Ping Hua, Shui Sheng Chen, and Chen Dai. "Thermal Characteristics Analysis and Engineering Application of Machining Center Ram Based on ABAQUS." Advanced Materials Research 694-697 (May 2013): 762–66. http://dx.doi.org/10.4028/www.scientific.net/amr.694-697.762.

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This paper establishes the finite element model of XK2535 gantry machining center ram structure, and considers the influence of bearing to the slippery pillow in the axial direction to analyzes the rams temperature field and thermal deformation based on ABAQUS. Finally using SINUMERIK 840D is to compensating thermal error of the ram.

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Qilong, Li, Guo Xuhong, Chen Yao, Ji Wenzheng, Wang Liang, and Zhang Tao. "Mechanical Analysis of Crossbeam in a Gantry Machine Tool and its Deformation Compensation." Open Mechanical Engineering Journal 9, no. 1 (April 17, 2015): 213–18. http://dx.doi.org/10.2174/1874155x01509010213.

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The beam is an important component in agantry machining center, and its deformation is believed to have asignificant impact on both the machining accuracy and the machining performance. In this research, the finite element models of a complete gantry machining center and the crossbeam are established, in whicht he restraint and boundary conditions for the finite element analysis are also introduced. It is noted thatthe impact of balance cylinders on the key components is fully considered when dealing with the force analysis. Computed results of the static characteristic analysis showed that the maximum deformation is about 0.080925 mm when crossbeam operates under different conditions. Then, the distortion curve and the compensation curve of guide rail are obtained, and the equation of a fitting compensation curve is also deduced through numerical analysis. This research is expected to provide a theoretical guide for distortion compensation of the crossbeam.

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Yang, Q. J., D. N. Li, L. L. Kong, and K. Li. "Research on MFBD Modeling Method for a Gantry Machining Center Beam Components." Advanced Materials Research 188 (March 2011): 487–92. http://dx.doi.org/10.4028/www.scientific.net/amr.188.487.

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In modern machining processes, Gantry Machining Center is one of the most important machine tools. Moreover, beam components directly relate to the overall performance. From multi-body simulation (MBS) and finite element analysis (FEA) respectively, the paper discusses current state of the multi-body dynamics modelling of the machine tool components in domestic and overseas. In this paper, We adopt a method, the multi-flexible body dynamics(MFBD) modeling method for machine tool transmission components (linear guidance and ball screw drives) in software Recurdyn, to create the conditions for MFBD simulation analysis of the beam components system. Much more, it provides a way of MFBD modelling for machine tools components in both the high-speed and high-performance.

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Xu, Shu Bo, K. K. Sun, Cai Nian Jing, and Guo Cheng Ren. "The Design and Optimization of Large-Scales Heavy Gantry NC Machining Center Based on Finite Element Method." Materials Science Forum 697-698 (September 2011): 656–60. http://dx.doi.org/10.4028/www.scientific.net/msf.697-698.656.

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Large gantry machining center can be applied to large diameter and thickness of the flanges, tube sheets and other large sheet metal processing, the industrialization of this type of device for improving the development of modern processing and manufacturing of great strategic significance. The design and optimization of large-scales heavy gantry CNC Machining Center was mainly investigated in this paper. The finite element model of the beam structure was structured by using finite element analysis software-ANSYS. On the basis of analysis results, the optimal static and dynamic performance of square cross-section of the beam structure has been obtained. The maximal displacement is 0.531 mm. The maximum displacement of X=0.0329mm, and Y=0.531 mm occurred in the contact point of middle beam and spindle box. Z is 0.0948mm. The maximal displacement of Y-component is occurred in the contact points of guide and spindle box. This may have a certain impact on the machine processing accuracy. In the middle of the beam can consider to strengthen its internal structure, such as adding reinforcement measures to further improve its rigidity, and improve the machining precision of the whole machine.

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Dissertations / Theses on the topic "Gantry machining center"

Cvejn, Jiří. "Konstrukce multifunkčního obráběcího centra." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2013. http://www.nusl.cz/ntk/nusl-230922.

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The purpose of this diploma thesis is a design of frame, crossbar, transverse feed, sliding feed of multifunctional machining center. In the first part, there is a brief research of history of machine tool conducted, division of machining centers, materials for frame construction, alternatives of drives of sliding axis. Further, I carry out an analysis of parameters of compeeting machine tools, from which I selected the parameters of our machine. Frame project of the machine, propulsion of axis X and Y, kinematic connection of axis X,Y,Z. Frame of machine is analysed by Finite Element Method. Over the scope of this work I suggest a solution for covering of linear axis as well as their measuring of actual position. 3D model of frame and drives of machine are included in this work. A complete formation has been introduced into the immersive virtual reality environment.

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Neumann, Ondřej. "Konstrukce multifunkčního obráběcího centra." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2013. http://www.nusl.cz/ntk/nusl-230950.

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Design of multi-functional machining center The purpose of this diploma thesis is a design of turning table for multi-functional machining center. The first part is the background research of multi-functional machining centers, rotary tables, chip management and brief overview of chosen machining center’s manufacturers. The sphere of using of the designed machine, including parameters of turning table, and its basic parameters are determined on the basis of this research. Afterwards, the variants of turning table drives are drawn up and one variant of calculation and construction is made. Design of clamping desk and chip management of the machine is also made. Above a specified framework of this thesis, simplified machine foundation design and anchoring of machine parts to this basis is performed. The work also includes a 3D model of turning table and substructure. The complete set of constructed machining center was brought into immersion virtual reality environment.

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Dostál, Martin. "Konstrukční návrh lineární osy pro multifunkční obráběcí centrum." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2021. http://www.nusl.cz/ntk/nusl-443239.

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This diploma thesis is concerned with providing a construction proposal of a linear axis X for multifunctional machining center. Moreover, this work presents characterisations of machining centers, overview of manufacturers, list of main construction components used in the linear axis, their evaluation, assessment of various options for construction, which are then explained further. These detailed construction methods include calculations with the subsequent choice of feed system component. Ultimately, final evaluation of chosen option is provided as well. Another section of this thesis is also an economical assessment and 3D model alongside with mechanical drawing.

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Jašíček, Radek. "Projekt výrobní linky." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2016. http://www.nusl.cz/ntk/nusl-254310.

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This thesis describes the methods and procedures used in designing production lines, focusing on the production line for machining of train wheels. The thesis also describes the basic types of railway wheels, their design and important design elements. It also deals with the complete manufacturing process of train wheel from material selection through the technological processes of forming, heat treatment, mechanical tests, machining and non-destructive testing and measuring. Suitable equipment for the construction of automatic lines for machining, inspection and measurement of train wheels is selected according to the specified parameters of the wheel types, manufacturing productivity and production shop dimensions, These devices include vertical machining center, single-purpose machine for grease outlet drilling, device for ultrasonic inspection, magnetic particle inspecton device, measuring station and train wheel balancing machine. Several variants of the production line including detailed specification of manipulation cycle times is created. These variants are mutually compared and evaluated to find the optimal solution.

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Matěja, Josef. "Konstrukce multifunkčního obráběcího centra." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2013. http://www.nusl.cz/ntk/nusl-230916.

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The Diploma thesis deals with the design solution of multi-functional machining centre, especially with one of its parts – the design of the slide ram and vertical feed incl. the choice of convenient tool heads for the slide ram. The introducing part deals with the numerically controlled machines and centres generally, especially with the portal-type ones. It contains description of individual machine parts including examples of accessories from product plans of domestic and foreign producers. The second part of the Diploma thesis contains calculations and design solution of the slide ram and feed including the choice of the most suitable accessories applicable for this purpose. In the final phase the model of the slide ram has been introduced in the imersion virtual reality and integrated in the complete machine design. The Diploma thesis has been elaborated using the relevant technical literature.

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Wu, Yu-Jen, and 吳育禎. "Study on Structure Characteristics and Topology Optimization for a Vertical Machining-Center with Gantry Type." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/hpgxkx.

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碩士
國立虎尾科技大學
機械與電腦輔助工程系碩士班
101
In recent years, the energy crisis and the competition between the enterprises are getting more intense. It has been an important topic of how to minimize the energy loss, reduce the production cost and upgrade the product quality and satisfy the demands of consumers. In general, to pursue the high strength quality, high production efficiency and lower economic cost, the enterprise will develop toward the target of high speed and low weight, yet the structural strength problem will be derived afterward, therefore, it must be understood further on these structural characteristics to avoid the occurrence of the vibration problems. Under higher movement, in order to reduce the weight problem, moving parts are asked to be light, and to avoid destroying the structure, the stiffness of the structure can not be lowered down at the same time, Therefore, the processing precision is good or bad, the designing consideration depends on whether the structure has enough dynamic stiffness, load stiffness, higher natural frequency, light weight and good anti-vibration ability. How to design the tool machine mechanism to meet conditions stated above and shorten the developing period and reduce the cost, those topics have become the questions that the enterprises need to confront them, thus, the optimization of designing technology is more important day after day. This thesis takes mainly the vertical machining-center with gantry type, At first, employing the finite element analysis software proceed the numerical model analysis of the whole machine structure and find the model parameters. Then, proceed the experimental model analysis, discuss the characteristics of the processing center machine structure model, collocate and verify each other with the result of numerical model analysis and implement an equivalent finite element model. The further step is to understand the characteristic of structure model to avoid the occurrence of resonance on the structure, thus, leading to the damage of the structure. Also, applying topology optimization analysis software to proceed the optimization of every part of the structure, thus, upgrading the structure stiffness to reach the goal of light weight structure (reducing the material usage) and the lower expense of production cost. The result of the study reveals that there are 3 models in the range of spindle rotation frequency are induced the structural resonance frequency easily; it must be avoided to use the speed of these frequencies during the processing. Applying the results of static analysis on the topology optimization, it can be found that there are lowering tendency of the maximum stress, maximum deformation and part weight for every part structure. Through this experiment, analysis and implementation of the diagnosis flow chart, it enables to predict the defects of the machining center structure in advance, and enables to provide to enterprises as improvement and references when designing the machining center machine system. It is also very referable to develop the new designing of the machining center machine in the future.

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李冠賢. "The Influence Produced by the Structure of Head and Precise Linear Guideway to the Structural Rigidity of Gantry-type High-speed Machining Center." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/mqxe5d.

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碩士
國立彰化師範大學
機電工程學系
98
Due to the highly development of industrial technology, the use of tool machines is unavoidable. With the development of industries, the precision requirement of manufacture becomes more stringent. Upgrading to high-speed and high precision then are the development objectives of the industry of machine tools. Although, there exist many important factors that have to be solved, the structural rigidity plays one of the key roles. Hence, the problems due to the occurrence of structural rigidity become more and more important. It is known that tool machine is assembled by many parts. It is also known that during operation, tools are settled on the head set, the structure of head set then plays a key role in the field of structural rigidity of machine tools. Hence, the objective of this study is to investigate the influence produced by the change of the structure of the head set to the structural rigidity of gantry-type high-speed machining center. The software Pro/E and Pro/M are first employed to establish the 3D model of the platform and the modal analysis. The modal test then is performed to verify the 3D model. The deviations of structural rigidity of gantry-type high-speed machining center produced by the change of the structure, including the change of geometry of the head set, are analyzed and explored.

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Chen, Zhao-Jin, and 陳昭瑾. "A study of the environmental temperature variation induced thermal deformation and the thermal balance strategy for a large gantry type CNC machining center." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/re5rg9.

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碩士
國立中興大學
機械工程學系所
106
This study investigated the thermal displacement characteristics of two domestic 5-axis large gantry type CNC machining center with different structures, mainly affecting the temperature variation and thermal deformation of the entire machine structure due to environmental temperature changes. In the experimental measurement section, multiple critical temperature measurement points are placed on the machine, and the non-contact eddy current displacement meter is used to obtain the instantaneous thermal displacement. Based on the experimental measurements, a multi-physics simulation model was constructed. 　　In order to achieve more flexible thermal balance technology to temperature control of the key points of the machine structure, this study attempts to use small cooling water blocks for temperature control on the beam. The study based on the multiple physical coupled thermal displacement model established, the temperature value of the measured point and the corresponding cutting point thermal displacement input neural network are used for learning and training, and a neural network model for effectively predicting the temperature variation and thermal deformation of the machine structure is established respectively. Through the neural network model, multiple cooling water blocks are placed on the beam area of machine tools, adjust the cooling point parameters of multiple cooling water blocks to control the temperature distribution of the key structural positions of the machine, and then achieve the control of the thermal displacement of the cutting point and the bending degree of the beam. 　　The temperature of the beam is unevenly distributed due to the change of the ambient temperature was observed from the side-mounted model, which causes the thermal displacement of the x-axis of the tool tip to change the most. Use fan and cooling water block to improve the x-axis of the tool tip point and the bending degree of the beam. The Box-in-box model is also caused by the variation of the ambient temperature of the beam, which makes the temperature distribution of the beam structure uneven, resulting in the largest thermal displacement change of the z-axis of the tool tip point. The cooling water block is used to improve the bending degree of the beam, and it is easier to improve the z-axis thermal displacement of the tool tip point under compensation. The follow-up verification experiment was carried out on the side-mounted model, and the parameters obtained by the simulation were improved. In the fan experiment, the x-axis thermal displacement amount of the tool tip point was improved by about 10%, and the cooling water block was used to improve the x-axis thermal displacement amount of the tool tip point about 45%.

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Book chapters on the topic "Gantry machining center"

Zhao, Dehong, Xiaojun Ji, Feng Lu, Wei Wu, and Guangyu Yan. "Optimal Design of Gantry Machining Center Welding Crossbeam Structure Based on the ICM." In Advances in Mechanical Design, 631–43. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-6553-8_43.

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Conference papers on the topic "Gantry machining center"

Guan, Yingjun, Lili Ren, Jianwei Sun, and Deqiang Mu. "Analysis and Optimization of Crossbeam of Gantry Machining Center." In 2010 2nd International Conference on Information Engineering and Computer Science (ICIECS). IEEE, 2010. http://dx.doi.org/10.1109/iciecs.2010.5678295.

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Si, Guo-ning, Yue-qing Yu, and Jian-xin Yang. "Dynamic Simulation of a Multi-axis Synchronous Gantry Machining Center." In 2010 Second International Conference on Computer Modeling and Simulation (ICCMS). IEEE, 2010. http://dx.doi.org/10.1109/iccms.2010.395.

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Xu, Shubo, Jie Liu, Keke Sun, Peng Liu, and Yuanbin Zhang. "Study on Modeling Simulation of Long-Span Gantry NC Machining Center Structure." In 2010 International Conference on Digital Manufacturing and Automation (ICDMA). IEEE, 2010. http://dx.doi.org/10.1109/icdma.2010.199.

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Si, Guo-ning, Yue-qing Yu, Jian-xin Yang, and Zhen Zhang. "Notice of Retraction: Dynamic modeling of multi-axis synchronous gantry machining center." In 2010 2nd International Conference on Advanced Computer Control (ICACC 2010). IEEE, 2010. http://dx.doi.org/10.1109/icacc.2010.5486732.

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Liu, Chun-Fang, Yin-Long Xing, and Tong Wang. "Gantry machining center feed-forward double close loop Maglev system fuzzy synchronization control." In Mechanical Engineering and Information Technology (EMEIT). IEEE, 2011. http://dx.doi.org/10.1109/emeit.2011.6023766.

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Xiuheng, Zhang, and Lu Kai. "Structural Optimization on Beam Parts of Bridge Type Five Axis Linkage Gantry Machining Center." In 2010 3rd International Conference on Intelligent Networks and Intelligent Systems (ICINIS). IEEE, 2010. http://dx.doi.org/10.1109/icinis.2010.43.

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Yang, Xia, Yan Zhao, Zhu Xiao, and Qingding Guo. "Design and simulation of fuzzy PID controller for the movable beam in gantry machining center." In Education (ICCSE). IEEE, 2009. http://dx.doi.org/10.1109/iccse.2009.5228385.

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Yang, Xia, Zhu Xiao, Yan Zhao, and Qingding Guo. "Research on the control of the suspension stiffness for the beams in Gantry Machining Center." In Education (ICCSE). IEEE, 2009. http://dx.doi.org/10.1109/iccse.2009.5228386.

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Yang, Xia, Yan Zhao, Zhu Xiao, and Jiefan Cui. "Design and simulation of fuzzy PID controller for the movable beam in gantry machining center." In 2009 IEEE International Conference on Automation and Logistics (ICAL). IEEE, 2009. http://dx.doi.org/10.1109/ical.2009.5262826.

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Zhao Ximei and Guo Qingding. "Synchronous Control of Gantry Moving Type Boring-Milling Machining Centers Based-on Disturbance Observer." In Proceedings of the Eighth International Conference on Electrical Machines and Systems. IEEE, 2005. http://dx.doi.org/10.1109/icems.2005.202814.

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Contents

Academic literature on the topic 'Gantry machining center'

Create a spot-on reference in APA, MLA, Chicago, Harvard, and other styles

Journal articles on the topic "Gantry machining center"

Dissertations / Theses on the topic "Gantry machining center"

Book chapters on the topic "Gantry machining center"

Conference papers on the topic "Gantry machining center"