Rchr
J-GLOBAL ID:202001015242211247
Update date: Oct. 31, 2024
Abe Takeyuki
アベ タケユキ | Abe Takeyuki
Affiliation and department:
Research theme for competitive and other funds (7):
- 2023 - 2026 ワイヤ+アーク放電方式によるマルチマテリアル付加加工における機能創成
- 2021 - 2024 固相接合メカニズムを応用した金属積層技術の開発
- 2019 - 2022 Function creation in additive manufacturing using Mg alloys and dissimilar metals with wire arc discharge
- 2019 - 2021 Wire and arc additive manufacturing with finishing process
- 2018 - 2021 State Analysis of Manual Pouring and Development of Control System Replicating Skilled Pouring-Work
- 2016 - 2019 Development of the CAM and CAPP system for additive manufacturing process and machining
- 2013 - 2015 高精度複雑形状の自動造形を可能とする新加工技術『溶融金属積層法』の開発
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Papers (36):
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Teerayut Cordkaew, Jun’ichi Kaneko, Takeyuki Abe. Analysis of the Relationship Between Process Parameters and Microhardness for the Finishing Process by Wire Arc Additive Manufacturing Combined with the FSB Tool of Austenitic Stainless Steel 316L. International Journal of Automation Technology. 2024
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Yuta MAFUNE, Naoya KATAGIRI, Takafumi HANAI, Masanori KUBOTA, Takeyuki ABE, Jun’ichi KANEKO. Material property control of CuSn alloy using wire and arc additive manufacturing (Translated). Mechanical Engineering Journal. 2024
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Gustavo Quadra Vieira dos Santos, Jun’ichi Kaneko, Takeyuki Abe. Analysis of Machinability on Properties of Inconel 718 Wire and Arc Additive Manufacturing Products. Journal of Manufacturing and Materials Processing. 2023
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Hideaki Nagamatsu, Takeyuki Abe, Kentaro Nakajima, Hiroyuki Sasahara. Development of directed energy deposition strategy for a mechanically interlocked pure Ti and Al alloy component with cross-shaped internal pure Ti lattice. Additive Manufacturing. 2023
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Akira Nishiyama, Shun Kayashima, Nobuyuki Sumi, Takashi Hashimoto, Takeyuki Abe, Jun’ichi Kaneko. Process Planning with Removal of Melting Penetration and Temper Colors in 5-Axis Hybrid Additive and Subtractive Manufacturing. International Journal of Automation Technology. 2023. 17. 4. 356-368
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MISC (37):
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ABE Takeyuki, SAKURAI Ayano, KANEKO Jun'ichi, HORIO Kenichiro. Material mixing ratio in MIM-based FDM using agar binder. The Proceedings of The Manufacturing & Machine Tool Conference. 2019. 2019. 0. C14
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SHIGEMURA Keitaro, YAMADA Hiroaki, KANEKO Jun'ichi, ABE Takeyuki, HORIO Kenichiro. Development of high precision grinding technology for irregularly shaped cutting edge of punch. The Proceedings of The Manufacturing & Machine Tool Conference. 2019. 2019. 0. C24
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NAKAMURA Takayuki, ICHIKAWA Kohei, HASEGAWA Masanobu, KANEKO Jun'ichi, ABE Takeyuki, HORIO Kenichi. Development suppress method of processing speed reduction by correction of turning axis command value in 5-axis control machining. The Proceedings of The Manufacturing & Machine Tool Conference. 2019. 2019. 0. A39
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SUGITA Shumpei, KANEKO Junichi, ABE Takeyuki, HORIO Kenichiro. Development of a method for estimating the amount of displacement of a low-rigidity cutting object by machine learning:(Data set by image of processing conditions and displacement). The Proceedings of The Manufacturing & Machine Tool Conference. 2019. 2019. 0. A38
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Kaneko Junichi, Kitahara Hiromu, Abe Takeyuki, Horio Kenichiro. Accurate and fast tool path generation method for large-scale discrete shape data. Proceedings of JSPE Semestrial Meeting. 2019. 2019. 0. 262-263
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Lectures and oral presentations (32):
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加工領域を対象とした加工可能姿勢範囲の高速な導出による工具経路計画法の開発
(精密工学会学術講演会講演論文集 2019)
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Accurate and fast tool path generation method for large-scale discrete shape data
(Proceedings of JSPE Semestrial Meeting 2019)
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Development of a method for estimating the amount of displacement of a low-rigidity cutting object by machine learning:(Data set by image of processing conditions and displacement)
(The Proceedings of The Manufacturing & Machine Tool Conference 2019)
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Development suppress method of processing speed reduction by correction of turning axis command value in 5-axis control machining
(The Proceedings of The Manufacturing & Machine Tool Conference 2019)
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Development of high precision grinding technology for irregularly shaped cutting edge of punch
(The Proceedings of The Manufacturing & Machine Tool Conference 2019)
more...
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