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研究生:郭玉一
研究生(外文):Yu-Yi-Kuo
論文名稱:微波介電材料之研究
論文名稱(外文):Study of Microwave Dielectric Material
指導教授:陳元斌、李炳鈞
指導教授(外文):CHEN,YUAN-BIN、LI,BING-JING
口試委員:水瑞鐏、曾宗亮
口試日期:2017-01-17
學位類別:碩士
校院名稱:長榮大學
系所名稱:資訊管理學系(所)
學門:電算機學門
學類:電算機一般學類
論文種類:學術論文
論文出版年:2017
畢業學年度:105
語文別:中文
論文頁數:94
中文關鍵詞:介電材料低溫燒結
外文關鍵詞:Dielectric materialLTCC
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本文是探討介電材料的XRD晶相鑑定、SEM結構、密度分析,經由實驗結果,可以得知在七組的材料中,每一組的最高燒結溫度點的SEM結構所產生最佳的緻密度,這7組材料都是利用低溫燒結來做實驗,可以用密度來推算每一組溫度的最佳介電常數和XRD晶相的最佳繞射面,最佳燒結溫度和密度分析。以下是7組的材料:Ca1-xZrx(Ti1-xSnx)O3、(Mg1-xZnx)2SiO4-0.12Ca0.8Sm0.4/3TiO3混Li2-B2O3、Li3(Mg1-xZnx)COPO4、Li3(Mg1-xZnx)Nb0.9-Ta0.1 Ba3(VO4)2、Li3(Mg1-xZnx)NbO6、Li3(Mg1-xNix)NbO6、Li3(Mg1-xZnx)Ti3O8

In this paper, we discuss the XRD crystal structure, SEM structure and density analysis of dielectric materials. The experimental results show that the maximum sintered temperature of each group in the seven groups has the best density , These 7 groups of materials are made using low-temperature sintering experiments can be used to calculate the density of each group of the best temperature of the dielectric constant and the XRD crystal diffraction best surface, the best sintering temperature and density analysis. The following are the seven groups of materials:
Ca1-xZrx(Ti1-xSnx)O3、(Mg1-xZnx)2SiO4-0.12Ca0.8Sm0.4/3TiO3混Li2-B2O3、Li3(Mg1-xZnx)COPO4、Li3(Mg1-xZnx)Nb0.9-Ta0.1 Ba3(VO4)2、Li3(Mg1-xZnx)NbO6、Li3(Mg1-xNix)NbO6、Li3(Mg1-xZnx)Ti3O8

中文摘要I
AbstractII
目錄III
圖目錄VII
第一章、緒論1
1-1前言1
1-2研究動機與目的3
第二章、介電陶瓷材料4
2-1介電陶瓷材料之微波特性4
2-1-1介電性質4
2-1-2品質因數10
2-1-3共振頻率溫度飄移數13
2-2介電共振器原理15
2-3陶瓷材料燒結原理20
2-3-1陶瓷材料燒結之擴散機制21
2-3-2陶瓷材料燒結之過程22
2-3-3陶瓷材料燒結之種類23
2-4低溫燒結原理26
第三章、實驗程序與量測方法32
3-1介電陶瓷的製備32
3-1-1粉末之製備33
3-1-2陶瓷之製備34
3-2介電陶瓷材料量測與分析36
3-2-1XRD晶相鑑定36
3-2-2SEM表面微結構分析37
3-2-3密度之量測38
第四章、實驗結果與討論40
4-1Ca1-xZrx(Ti1-xSnx)O3的分析與討論40
4-1-1Ca1-xZrx(Ti1-xSnx)O3的XRD相鑑定41
4-1-2Ca1-xZrx(Ti1-xSnx)O3 SEM微結構42
4-1-3Ca1-xZrx(Ti1-xSnx)O3 密度分析46
4-2(Mg1-xZnx)2SiO4-0.12Ca0.8Sm0.4/3TiO3混 Li2-B2O3的分析與討論47
4-2-1(Mg1-xZnx)2SiO4-0.12Ca0.8Sm0.4/3TiO3混Li2-B2O3的XRD相鑑定48
4-2-2(Mg1-xZnx)2SiO4-0.12Ca0.8Sm0.4/3TiO3混Li2-B2O3的SEM微結構49
4-2-3(Mg1-xZnx)2SiO4-0.12Ca0.8Sm0.4/3TiO3混Li2-B2O3密度分析53
4-3Li3(Mg1-xZnx)Nb0.9Ta0.1-Ba3(VO4)2的分析與討論54
4-3-1Li3(Mg1-xZnx)Nb0.9Ta0.1-Ba3(VO4)2的XRD相鑑定55
4-3-2Li3(Mg1-xZnx)Nb0.9Ta0.1-Ba3(VO4)2的SEM微結構56
4-3-3Li3(Mg1-xZnx)Nb0.9Ta0.1-Ba3(VO4)2密度分析60
4-4Li3(Mg1-xZnx)CoPo4的分析與討論61
4-4-1Li3(Mg1-xZnx)CoPo4的XRD相鑑定62
4-4-2Li3(Mg1-xZnx)CoPo4的SEM微結構63
4-4-3Li3(Mg1-xZnx)CoPo4密度分析67
4-5Li3(Mg1-xZnx)NbO6的分析與討論68
4-5-1Li3(Mg1-xZnx)NbO6的XRD相鑑定69
4-5-2Li3(Mg1-xZnx)NbO6的SEM微結構70
4-5-3Li3(Mg1-xZnx)NbO6密度分析74
4-6Li3(Mg1-xNix)NbO6的分析與討論75
4-6-1Li3(Mg1-xNix)NbO6的XRD相鑑定75
4-6-2Li3(Mg1-xNix)NbO6的SEM微結構76
4-6-3Li3(Mg1-xNix)NbO6密度分析80
4-7Li3(Mg1-xZnx)Ti3O8的分析與討論81
4-7-1Li3(Mg1-xZnx)Ti3O8的XRD相鑑定82
4-7-2Li3(Mg1-xNix)NbO6的SEM微結構83
4-7-3Li3(Mg1-xNix)NbO6密度分析87
第五章、結論88
參考文獻90
[1] David K. Cheng ”Field and Wave Electromagnetic”
pp407-412,1989
[2] D. Kajfez ”Computed Modal Field Distribution for Isolated
Dieletric Resonators”IEEE. Trans. MTT, Vol. MTT-32,
pp.1609-1616,1984
[3] D.Kajfez”Basic Principle Give Understanding of Dielectric Wave-
guides and Resonators”Microwave System
News,Vol.13,pp.152-161 ,1983
[4] D.Kajfez and P.Guillon”Dielectric Resonators”,1989
[5] W.J.Huppmann and G.Petzow”The Elementary Mechanisms of-110-LiquidSintering”,SinteringProcesses,PlenumPress,pp.189-202,1979
[6] M.Makimoto and M.Sagawa“Varactor tuned bandpass filters using
microstrip-line ring resonator ” IEEE MTT-S Int. Microwave
Symp ,Dig. May, pp411-414,1986.
[7] G. I. Zysman and A.K. Johnson. “Coupled transmisson line network in an inhomogeneous dielectric medium ” IEEE Trans Microwave Theory Tech , vol. MTT-17, pp. 753-759, Oct.1969.
[8] M. Makimoto and S. Yamashita “Bandpass filters using parallel
coupled strip-line stepped impedance resonators ” IEEE Trans.
Microwave Theory Tech , vol, MTT-28, pp, 1413-1417,Dec.(1980).
[9] Y.Kobayashi and N.Katoh “Microwave Measurement of Dielectric Properties of Low-loss Materials by Dielectric Rod Resonator Method “ IEEE.Trans.MTT ,vol.MTT-33 ,p586-592 ,1985
[10] O.V. Karpova:Soviet Phys. Vol. 1 ,p.220,1959
[11] S.H.Cha:IEEE.Trans.MTT, Vol.MTT-33,p.519,1985
[12] P. Wheless and D.Kajfez Measuring the Dielectric Constant of Dielectric Resonators” IEEE.MTT-S ,Symposium Dig. ,p.473-476,1985
[13] R.M.German:Liquid Phase Sintering,(Plenum Press, New York
1985,ch4)
[14] J.H.Jean and C.H.Lin:J.Mater.Sci.24,pp500,1989
[15] R.B. Heady and J. W. Cahn “An Analysis of the Capillary Forces in Liquid-Phase Sintering of Spherical Particles” Metall. Trans. Vol.1,pp 185-189, 1970.
[16] R.B. Heady and J. W. Cahn”Analysis of Capillary Force in
Liquid-Phase Sintering of Jagged Particles ” J. Am. Ceram. Soc.Vol.7 ,pp. 406-409,1970.
[17] 吳明忠(2004)。鋅鈮系無線通訊用低溫燒結微波介電材料之研究。臺灣大 學材料科學與工程學研究所碩士論文。
[18] 王郁婷(2012)。 BiSbO4 和 Mg(Zr0.05Ti0.95)O3 之低溫燒結。國立臺北科技 大學資源工程研究所碩士論文。
[19] 溫仲凱(2004)。低溫燒結(Zr0.8Sn0.2)TiO4 微波介電陶瓷之研究。 國立臺北 科技大學材料及資源工程系碩士論文。
[20] 林彥名(2003)。ZnO-TiO2 系統微波材料之低溫燒結研究, 國立臺北科技 大學材料及資源工程系碩士論文。
[21] 蔡文忠(2000)。玻璃添加對於鈦酸鎂鈣(Mg, Ca)TiO3 微波介電性質的影響, 國立交通大學電子工程系碩士論文。
[22] P. V. Bijumon, M. T. Sebastian, Tailoring the Microwave Dielectric Properties of Ca5Ta2TiO12 Ceramics Through Glass Addition, Journal of the American Ceramic Society, 88(12), pp. 3433-3439, 2005.
[23] Z.L. Tang, C.Y. Shen, Z.X. Li, J. Yang, T. Qiu, Effect of CuO-Bi2O3 Co-Doping on Microwave Dielectric Properties of Ba4Sm9.33Ti18O54 Ceramics, Advanced Materials Research, New and Advanced Material, pp. 548-551, 2011.
[24] H. Jiang, Ji. Zhai, X. Chou, X. Yao, Influence of Bi2O3 and CuO addition on low-temperature sintering and dielectric properties of Ba0.6Sr0.4TiO3 ceramics, Materials Research Bulletin, 44(3), pp. 566-570, 2009.
[25] X. Chen, W. Zhang, S. Bai, Effect of Bi4B2O9 addition on the sintering temperature and microwave dielectric properties of BaO–Nd2O3–4TiO2 ceramic, Journal of Materials Science: Materials in Electronics, 24(1), pp. 224-229, 2013.
[26] X. Chen, S. Bai, W. Zhang, Low temperature sintering and microwave dielectric properties of Bi4B2O9-added 0.25CaTiO3–0.75(Li1/2Nd1/2)TiO3 ceramics, Journal of Alloys and Compounds, 541, pp.132-136, 2012
[27] S. Wu, X. Wei, S. Wang, S. Gao, Effect of ZnO-B2O3 glass addition on the microwave dielectric properties of BaO-Nd2O3-TiO2-Bi2O3 system, Journal Wuhan University of Technology, Materials Science Edition, 25(5), pp.730-733, 2010.
[28] Preparation and microwave dielectric properties of Li3(Mg0.92Zn0.08)2NbO6–Ba3(VO4)2 composite ceramics for LTCC applications pp.012-013
[29] Microwave dielectric properties of low-fired Li2TiO3–MgO ceramicsfor LTCC applications pp.112

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