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氧化鋁含量對鋯酸鈣/氧化鋁複合材料與鈦金屬介面反應之影響

Effect of the Alumina Content on the Interfacial Reactions between Titanium and Calcium Zirconate/Alumina Composites

宋欣蔚(Shin-Wey Soong)
指導教授 : 林健正
國立交通大學/工學院/材料科學與工程系所/碩士(2013年)
https://doi.org/10.6842/NCTU.2013.00437
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摘要

本研究將不同比例的氧化鋁添加入自製的鋯酸鈣粉末中並以1500°C/30MPa/30分鐘的條件熱壓成複合材料後,與Cp-Ti在1 atm 氬氣氛下,進行1600°C/30分鐘的高溫介面反應,並以X光繞射儀(XRD)和掃描式電子顯微鏡(SEM/EDS)來進行微觀結構的分析及鑑定。 從研究結果觀察到氧化鋁添加量上升,在陶瓷側出現的二鋁酸鈣(CaAl4O7)與立方晶氧化鋯(c-ZrO2)隨之增加,鈦側的反應層則逐漸減少所觀察到的反應層有:α-Ti(Zr, O)、β'-Ti(Zr, O)、Ti3Al…等相。在複合材料樣品中,鋯酸鈣的比例隨著氧化鋁含量的增加而降低,立方晶體氧化鋯比例反而增加。其原因為氧化鋁較容易與氧化鈣反應形成二鋁酸鈣,使得鋯酸鈣會因此分解出氧化鋯。當氧化鋁添加量大於25 mol%會觀察到有一層緻密的鋯酸鈣產生,其為抑制介面反應的主要相。

關鍵字

鋯酸鈣 氧化鋁 介面反應

並列摘要

The samples were prepared with various content of ball-milled CaZrO3 and Al2O3 at different mole percent, then hot-pressed at 1500˚C for 30 minutes and reacted with Cp-Ti at 1600˚C for 30 minutes. The as-hot-pressed samples and interfacial reaction were characterized using x-ray diffraction (XRD) and scanning electron microscopy (SEM/EDS). The XRD spectra indicated that with the increase of Al2O3 there existes more CaAl4O7 and c-ZrO2 phases. For the titanium side there exists α-Ti(Zr, O), β'-Ti(Zr, O), Ti(Al) phases. The phases of CaAl4O7 and c-ZrO2 were increased with the increasing amount of Al2O3, due to the reaction of Al2O3 and CaZrO3 causing the formation of CaAl4O7 and remaining ZrO2. According to SEM/EDS results with the Al2O3 increasing to 25 mol.% or more will cause a compact layer of CaZrO3 to occur which is believed to be the reason to control the diffusion of ZrO2 to the titanium side.

並列關鍵字

CaZrO3 ZrO2 interfacial reaction

參考文獻

55. 蘇乙恩, "氧化鋁含量對氧化鈣/氧化鋯/氧化鋁複合材料與鈦金屬介面反應之影響," 碩士論文, 國立交通大學, 民國101年
50. L. Gao, Q. Liu, J. S. Hong, H. Miyamoto, S. D. D. Torre, A. Kakitsuji, K. Liddell, and D. P. Thompson, "Phase Transformation in the Al2O3–ZrO2 System," J. Mater. Sci., 33 [6] 1399-1403 (1998).
2. A. Chen, K. Sridharan, J. R. Conrad, and R. P. Fetherston, "Surface Modification of Ti-6Al-4V Surgical Alloy by Plasma Source Ion Implantation," Surf. Coat. Technol., 50 [1] 1-4 (1991).
3. B. Hill, "Titanium Use in Aerospace Applications," Industrial Heating. November [7] 57-59 (2007).
4. K. Sakamoto, K. Yashikawa, T. Fujisawa, and T. Onaye, "Changes in Oxyfen Contents of Titanium Aluminides by Vacuum Induction, Cold Crucible Induction and Elecron Beam Melting," Iron Steel Inst. jpn. Int., 32 [5] 616-621 (1992).

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