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KAKEN_16K14121seika.pdf
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Download
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:969.2 KB
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| Last updated |
:Nov 12, 2018 |
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Total downloads since Nov 12, 2018 : 770
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| Title |
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大気圧プラズマと高周波誘導加熱を利用したチタン合金の超短時間窒化プロセスの開発
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| Kana |
タイキアツ プラズマ ト コウシュウハ ユウドウ カネツ オ リヨウシタ チタン ゴウキン ノ チョウタンジカン チッカ プロセス ノ カイハツ
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Taikiatsu purazuma to kōshūha yūdō kanetsu o riyōshita chitan gōkin no chōtanjikan chikka purosesu no kaihatsu
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Development of super rapid nitriding process for titanium alloys
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小茂鳥, 潤
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コモトリ, ジュン
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Komotori, Jun
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慶應義塾大学・理工学部・教授
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Research team head
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科研費研究者番号 : 30225586
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曙, 紘之
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アケボノ, ヒロユキ
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Akebono, Hiroyuki
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広島大学・工学研究科・准教授
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Research team member
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科研費研究者番号 : 50447215
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菊池, 将一
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キクチ, ショウイチ
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Kikuchi, Shoichi
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静岡大学・工学部・准教授
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Research team member
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科研費研究者番号 : 80581579
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森田, 辰郎
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モリタ, タツロウ
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Morita, Tatsuro
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京都工芸繊維大学・機械工学系・教授
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Research team member
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科研費研究者番号 : 90239658
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2018
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科学研究費補助金研究成果報告書
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2017
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| Abstract |
チタン合金の耐摩耗性を改善する手法としては, 窒化が最も一般的であるが, 長時間要することや加熱により素材の強度が低下することなどが問題視されている。本申請では, 数分オーダーの超短時間処理により, チタンの耐摩耗性を改善する手法の構築にチャレンジした。その結果, 高周波誘導により基材を加熱した状態で窒素ガスをブローすることにより, わずか3分の処理で, 数時間のガス窒化より深い効果層を得ることに成功した。
The effects of gas blow velocity on the surface properties of a Ti-6Al-4V alloy treated by gas blow IH nitriding were studied. The surface microstructure of the treated specimens was characterized using SEM and XRD. Vickers hardness and nanohardness were measured and reciprocating wear tests were carried out. The results showed that the nitriding of a specimen was facilitated by using a smaller gas blow nozzle. Incorporating the smaller nozzle resulted in an increase in gas blow velocity, which in turn increased the IH power and the temperature inside a specimen, thus accelerating the nitrogen diffusion. Moreover, nitriding at a lower treatment temperature (973 K) was achieved by increasing gas blow velocity. The specimen nitrided at a lower temperature with a high gas blow velocity exhibited better wear resistance than the untreated specimen. This process also inhibited trans-formation to an acicular phase, which involves apparent grain coarsening.
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研究種目 : 挑戦的萌芽研究
研究期間 : 2016~2017
課題番号 : 16K14121
研究分野 : 材料工学
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