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Journal articles on the topic 'Rotary tilting table'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Zhang, Yong Chao, Song Lin Wu, and Jun Feng Zhang. "Modeling of Dynamic Errors for a Table-Tilting Type 5-Axis Machine Tools." Advanced Materials Research 655-657 (January 2013): 1277–81. http://dx.doi.org/10.4028/www.scientific.net/amr.655-657.1277.

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The precision of its processes is affected by static error and dynamic error. This paper focuses on modeling about dynamic errors and proposed an algorithm of the dynamic error for Table-tilting 5-axis machine tool, which is using Homogeneous Transformation Matrix to establish the dynamic errors formula, so as to structure a model of its dynamic error. Dynamic errors about rotary and linear axis of a 5-axis machining center with tilting rotary table type are defined. At last, we performed the operation and measurement of Table-tilting 5-axis machine, in order to compare and verify the dynamic
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2

Ohta, Katsunori, Zhi Meng Li, and Masaomi Tsutsumi. "Proposal of a Machining Test of Five-Axis Machining Centers Using a Truncated Square Pyramid." Key Engineering Materials 523-524 (November 2012): 475–80. http://dx.doi.org/10.4028/www.scientific.net/kem.523-524.475.

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NAS 979 has been used for over 40 years as a performance evaluation standard for five-axis machining centers. This standard provides some finishing conditions of the cone-frustum under five-axis control, and prescribes the measuring methods and permissible tolerances of geometric deviations. However, this standard cannot be applied to the tilting rotary table type five-axis machining center but to the universal spindle head type one. When the standard is applied to the tilting rotary table type, it is not clear yet that the effects of the geometric and synchronous deviations which influence th
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3

Sato, Ryuta, and Masaomi Tsutsumi. "High Performance Motion Control of Rotary Table for 5-Axis Machining Centers." International Journal of Automation Technology 1, no. 2 (2007): 113–19. http://dx.doi.org/10.20965/ijat.2007.p0113.

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We discuss motion control techniques of rotary tables for 5-axis machining centers. Three translational axes and two rotary ones are controlled simultaneously in the machining of complex shapes such as impellers. A tilting rotary table powered by a worm gear is generally used as the rotary axes for 5-axis machining centers, and various causes of inaccuracy exist in the rotary axes. In this study, we clarified three causes of inaccuracy exists in the rotary axis: rotational fluctuation in the worm gear, backlash, and measurement delay of rotary encoder for feedback. Motor torque saturation of t
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4

Xia, Lian, Jiang Han, and Hu Li. "Research on Rotary and Tilting Table Five-Axis Milling Post-Processing Software Star-Fpost." Advanced Materials Research 403-408 (November 2011): 2962–66. http://dx.doi.org/10.4028/www.scientific.net/amr.403-408.2962.

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Based on the MIRON UCP800 rotary and tilting table five-axis machine, this paper studies the mathematical model of Five-Axis machining and derives the algorithm formula of Six-Coordinate axis vector into five-axis AC rotary and tilting table. The Post-Processing process of turning the source file to the machine tool path code is fulfilled by using coordinate transformation matrix; with reading the cutting location file line by line, a dedicated five-axis milling post-processing software through adapting the Keyword-Triggered method is developed by using object-oriented program in the paper. Fi
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5

Tung, Chieh, and Pei Lum Tso. "Inverse Kinematics with 3-Dimensational Tool Compensation for 5-Axis Machine Center of Tilting Rotary Table." Applied Mechanics and Materials 110-116 (October 2011): 3525–33. http://dx.doi.org/10.4028/www.scientific.net/amm.110-116.3525.

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The purpose of this paper is to develop a tool radius compensation method for a 5-axis horizontal machine center with a tilting rotary table. The generalized expression is presented first to determine the cutting contact location for any type of milling tools. The spindle orientation solved from a closed form of the inverse kinematics is applied for generating the postprocessor, and a compensating procedure is implemented to verify the offset path.
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6

Guo, Jiang, Hirofumi Suzuki, Shinya MORITA, Yutaka Yamagata, and Toshiro Higuchi. "Micro-Aspheric Mold Polishing Utilizing Magnetostrictive Vibration-Assisted Polishing Machine." Key Engineering Materials 523-524 (November 2012): 768–73. http://dx.doi.org/10.4028/www.scientific.net/kem.523-524.768.

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Micro-aspheric lenses molded by micro-aspheric ceramic molds are increasing in the optical systems such as digital cameras and blu-ray players. To finish the molds with high accuracy and low surface roughness, in this paper, the micro-aspheric mold made of Electroless nickel plating are polished by using the newly developed 5-axis magnetostrictive vibration-assisted polishing machine. The magnetostrictive vibrating polisher generates a lateral vibration at 9.2 kHz with amplitude of 30 μm. The polishing pressure is controlled by a balance adjustment mechanism and the polishing load is controlla
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7

TSUTSUMI, Masaomi, Daisuke YUMIZA, Keizo UTSUMI, and Ryuta SATO. "Evaluation of Synchronous Motion in Five-axis Machining Centers With a Tilting Rotary Table." Journal of Advanced Mechanical Design, Systems, and Manufacturing 1, no. 1 (2007): 24–35. http://dx.doi.org/10.1299/jamdsm.1.24.

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8

MIYAMA, Naoki, Tomoyuki SAIKI, Chengri CUI, and Masaomi TSUTSUMI. "A11 Measurement of geometric deviations of tilting rotary table type five-axis machining centres with an inclined rotary axis." Proceedings of The Manufacturing & Machine Tool Conference 2008.7 (2008): 83–84. http://dx.doi.org/10.1299/jsmemmt.2008.7.83.

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9

MIYAMA, Naoki, Tomoyuki SAIKI, Chengri CUI, and Masaomi TSUTSUMI. "C3 Generalization of Identification Method of Geometric Deviations for Five-axis Machining Centers with a Tilting-rotary Table(Multi-axis control machining)." Proceedings of International Conference on Leading Edge Manufacturing in 21st century : LEM21 2009.5 (2009): 117–22. http://dx.doi.org/10.1299/jsmelem.2009.5.117.

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10

Blaga, Florin, Mircea Bogdan Tătaru, Tiberiu Vesselenyi, Iulian Stǎnǎşel, and Constantin Bungău. "Experimental Researches Concerning Evaluation of Mechanical Vibrations of Five Axes Machining Center Equipped with Rotary Tilting Table." Applied Mechanics and Materials 809-810 (November 2015): 748–53. http://dx.doi.org/10.4028/www.scientific.net/amm.809-810.748.

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Precision of the machining centers is influenced by many factors among which are mechanical vibrations that occur in the machine-tool-part-device system. Evaluation of vibration level for five axes machining centers is a very important issue considering structural and functional complexity of these equipments. The paper presents researches performed at University of Oradea to evaluate vibration of TMA-AL 550 five axes machining center, equipped with a two rotating axes table, during the machining process. There have been used two methods: evaluation of the dynamic behavior of the spindle using
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11

Lee, Kwang-Il, and Seung-Han Yang. "Compensation of position-independent and position-dependent geometric errors in the rotary axes of five-axis machine tools with a tilting rotary table." International Journal of Advanced Manufacturing Technology 85, no. 5-8 (2015): 1677–85. http://dx.doi.org/10.1007/s00170-015-8080-4.

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12

Bungău, Constantin, Rareş Pancu, and Traian Buidoş. "Analysis of the Linear Positioning Accuracy on Z Axis at the Horizontal Machining Centre TMA-AL-550." Advanced Materials Research 837 (November 2013): 179–84. http://dx.doi.org/10.4028/www.scientific.net/amr.837.179.

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This paper presents a case study regarding use the laser XL 80 to check the linearity movement of the Z-axis to horizontal machining center, TMA-AL 550. This machining center has been upgraded to the possibility of processing to 3 CNC linear axes and 2 CNC rotary axes (up to 5 CNC simultaneous axes) and also 1 PLC axis (the index table), as well the including of the machine into to the flexible manufacturing cell. This work paper presents the linearity accuracy at machining centre on the Z axis and shows the operating correction parameters by software and the necessity of backlash adjustment b
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13

Wei, Wenhui, Aoxiong Dai, Yong-Lin Pi, and Mark Andrew Bradford. "Investigations on the Seismic Responses of Structures with a Suspended Mass." International Journal of Structural Stability and Dynamics 16, no. 02 (2016): 1550066. http://dx.doi.org/10.1142/s0219455415500662.

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This paper presents the shaking table tests and an analytical study of structures with a suspended mass under coupled horizontal and tilting ground motions (CHT) caused by an earthquake. Shaking table tests of a 1:10 scaled model for a converter valve hall with a suspended mass in a high-voltage direct current electric power transmission station are carried out. The equations of motion for the structure, including the influence of the rotary inertia of the suspended mass, are derived. The responses of the model to different ground motions during an earthquake are investigated. It is found that
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14

Alessandro, Velenosi, Campatelli Gianni, and Scippa Antonio. "Axis geometrical errors analysis through a performance test to evaluate kinematic error in a five axis tilting-rotary table machine tool." Precision Engineering 39 (January 2015): 224–33. http://dx.doi.org/10.1016/j.precisioneng.2014.09.007.

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15

HIGASHIYAMA, Kenji, K. M. Muditha DASSANAYAKE, Masnomi TSUTSUMI, and Ken YAMAMOTO. "Identification of Geometric Deviations Based on Simultaneous Five-axis Motion Trajectory Measured in Five-axis Machining Centres with a Tilting Rotary Table." Transactions of the Japan Society of Mechanical Engineers Series C 73, no. 736 (2007): 3309–15. http://dx.doi.org/10.1299/kikaic.73.3309.

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16

TSUTSUMI, Masaomi, Naoki MIYAMA, Shintaro TONE, Akinori SAITO, Chengri CUI, and K. M. Muditha DASSSANAYAKE. "Correction of Squareness of Translational Axes for Identification of Geometric Deviations Inherent to Five-Axis Machining Centres with a Tilting-Rotary Table." TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series C 79, no. 799 (2013): 759–74. http://dx.doi.org/10.1299/kikaic.79.759.

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17

MIYAMA, Naoki, Tomoyuki SAIKI, Chengri CUI, and Masaomi TSUTSUMI. "Generalization of Identification Method of Geometric Deviations for Five-Axis Machining Centers with a Tilting-Rotary Table(Machine Elements, Design and Manufacturing)." Transactions of the Japan Society of Mechanical Engineers Series C 75, no. 756 (2009): 2335–42. http://dx.doi.org/10.1299/kikaic.75.2335.

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18

Tsutsumi, Masaomi, and Akinori Saito. "Identification of angular and positional deviations inherent to 5-axis machining centers with a tilting-rotary table by simultaneous four-axis control movements." International Journal of Machine Tools and Manufacture 44, no. 12-13 (2004): 1333–42. http://dx.doi.org/10.1016/j.ijmachtools.2004.04.013.

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19

Alessandro, Velenosi, Campatelli Gianni, and Scippa Antonio. "Erratum to “Axis geometrical errors analysis through a performance test to evaluate kinematic error in a five axis tilting-rotary table machine tool” [Precis. Eng. 39 (2015) 224–233]." Precision Engineering 40 (April 2015): 334. http://dx.doi.org/10.1016/j.precisioneng.2014.12.003.

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20

TAJIMA, Kazuya, Dassanayake MUDITHA, Chengri CUI, and Masaomi TSUTSUMI. "3276 Application of 3D-probe for measuring rotational accuracy of tilting rotary tables and display method for practical use." Proceedings of International Conference on Leading Edge Manufacturing in 21st century : LEM21 2011.6 (2011): _3276–1_—_3276–4_. http://dx.doi.org/10.1299/jsmelem.2011.6._3276-1_.

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21

Cespi, Marco, Monica Misici‐Falzi, Giulia Bonacucina, Sara Ronchi, and Giovanni F. Palmieri. "The effect of punch tilting in evaluating powder densification in a rotary tablet machine." Journal of Pharmaceutical Sciences 97, no. 3 (2008): 1277–84. http://dx.doi.org/10.1002/jps.21030.

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22

TAJIMA, Kazuya, Muditha DASSANAYAKE, Chengri CUI, and Masaomi TSUTSUMI. "E13 Development of 3D-probe for measuring the rotational accuracy of tilting rotary tables." Proceedings of The Manufacturing & Machine Tool Conference 2010.8 (2010): 287–88. http://dx.doi.org/10.1299/jsmemmt.2010.8.287.

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23

Ding, Wenzheng, Xiaochun Zhu, and Xiaodiao Huang. "Effect of servo and geometric errors of tilting-rotary tables on volumetric errors in five-axis machine tools." International Journal of Machine Tools and Manufacture 104 (May 2016): 37–44. http://dx.doi.org/10.1016/j.ijmachtools.2016.02.002.

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24

Scholle, Petr, Gerardo Herrera, Javier Sevilla, and Mark Brosnan. "A preliminary investigation assessing the basic digital capabilities of minimally verbal children on the autism spectrum with intellectual disability." Journal of Enabling Technologies 14, no. 2 (2020): 127–35. http://dx.doi.org/10.1108/jet-06-2020-0025.

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Purpose Children with Autism Spectrum Disorder (ASD) can demonstrate a preference for using digital technologies which can represent a relative strength within the autism community. Such a strength would have implications for digitally mediated interventions and support for autism. However, research to date has not developed a methodology for assessing the capabilities of minimally verbal children on the autism spectrum with intellectual disability (ID) to use digital technology. Design/methodology/approach Six minimally verbal children with ASD and ID undertook an accessible assessment that i
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25

CRACIUN, Dan, Tiberiu VESSELENYI, Constantin BUNGAU, et al. "DESIGN SOLUTION OF ROTARY TILTING TABLE FOR FIVE AXES MACHINING." ANNALS OF THE ORADEA UNIVERSITY. Fascicle of Management and Technological Engineering. XXII (XII), 2013/1, no. 1 (2013). http://dx.doi.org/10.15660/auofmte.2013-1.2783.

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