使用鎳基填料硬銲兩種金屬基材之研究

Cheng-Ho Hsu; 徐正和

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/65881

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DC 欄位	值	語言
dc.contributor.advisor	薛人愷
dc.contributor.author	Cheng-Ho Hsu	en
dc.contributor.author	徐正和	zh_TW
dc.date.accessioned	2021-06-17T00:14:22Z	-
dc.date.available	2012-07-27
dc.date.copyright	2012-07-27
dc.date.issued	2012
dc.date.submitted	2012-07-06
dc.identifier.citation	1.M. M. Schwartz, ASM Handbook, Vol.6, , Introduction to Brazing and Soldering, pp.114-125, pp.924-930, ASM International, 1993. 2.J. R. Davis, Metals Handbook, Vol.2, Properties and Selection：Nonferrous Alloys and Special Purpose Materials, ASM International, 1990. 3.C.H Hsu, H.W. Hsu, T.Y. Yeh, R. K. Shiue, Developing Corrosion-resistant Joints Applied in the Plate Heat Exchanger, Advantace Material Resarch, Vol. 410, 2012, pp. 191-195. 4.A.T. Egbewande, C. Chukwukaeme, O.A. Ojo, Joining of superalloy Inconel 600 by diffusion induced isothermal solidification of a liquated insert metal, Materials Characterization, Vol 59, 2008, pp. 1051–1058. 5.R. D. Milner, A Survey of the Scientific Principles Related to Wetting and Spreading, Br. Weld. J., Vol. 5, 1958, pp.90-105. 6.D. L. Olson et. Al., Metals Handbook, 10th ed., ASM International Vol.6, 1990, Welding Brazing and Soldering. 7.黃振賢，金屬熱處理18th edition，新文京開發出版有限公司，2003。 8.A. Rabinkin, Brazing with(NiCoCr)-B-Si amorphous brazing filler metal: alloys, processing, joint structure, properties, application, Science and Technology of Welding and Joining, Vol.9, No.3, 2004. 9.Annual Book of ASTM Standards Section 3, Metals Test Methods & Analytical Procedures, West Conshohocken, Pa., ASTM International, 2004. 10.Kathleen Mills, ASM Handbook, Ninth ed., ASM International, Materials Park, Vol.9, 1990, Metallography and Microstructures. 11.T. B. Massalski, Binary Alloy Phase Diagrams, ASM International, 1990. 12.Xiaowei Wu, R. S. Chandel, Hang Li, H. P. Seow, Shichun Wu, Induction brazing of Inconel 718 to Inconel X-750 using Ni-Cr-Si-B amorphous foil, Journal of Material Processing Technology, Vol. 104, 2000, pp. 34-43. 13.P. Villars, A. Prince, H. Okamoto, Handbook of Ternary Alloy Phase Diagrams, ASM International, 1995. 14.A. Rabinkin, E. Wenski, a. Ribaudo, Brazing stainless steel using a new MBF-series of Ni-Cr-B-Si amorphous brazing foils, Welding in the word, Vol. 41, 1998, pp. 466-479. 15.D. L. Olson et. al.: Matals Handbook, 10th ed., ASM International, Materials Park, Vol. 6, 1990, Welding Brazing and Solding. 16.M. Schwartz: Brazing For the Engineering Technologist, ASM international, Material Park, 1995. 17.G. Humpston and D. M. Jacobson: Principles of Soldering and Brazing, ASM International, Materials Park, 1993. 18.Peaslee RL, Boam WM. Stainless Steel can be brazed for 1100℃ service. Iron Age Sept. 28 and Oct. 5, 1950. 19.Brazing Handbok. AWS, 1991. 20.J. E. Ramirez, S. Liu, Diffusion brazing in the nickel-boron system, Weld. J. Vol. 71, No.10, 1992, pp. 365-375. 21.A. Sakamoto, C. Fujiwara, T. Hattori, S. Sakai, Optimizing processing variable in high temperature brazing with nickel-based filler metal, Weld. J. Vol. 68, No. 3, 1989, pp. 63-71. 22.E. Lugscheider, T. Schittny, E. Halmoy, Metallurgical aspects of additive-aided wide-clearance brazing with nickel-based filler metal. Weld. J. Vol. 68, No. 1, 1989, pp. 9-13. 23.R.D. Eng, E. J. Ryan, J. Doyle, Nickel-based brazing with filler metals for aircraft gas turbine application, Weld. J. Vol. 50, No. 10, 1997, pp. 15-21. 24.J. Crank, The Mathematics of Diffusion, second ed., Oxford University Press, Oxford, UK, 1975, pp. 37. 25.Y. Nakao, K. Nishimoto, K. Shinozaki, C.Y. Kang, Trans. Jpn. Weld. Soc. Vol. 20, No. 1, 1989, pp. 60-65. 26.S.D. Duvall, W.A. Owczarski, D.F. Paulonis, TLP bonding: a new method for joining heat resistant alloys, Weld J, Vol. 53, 1974, pp. 203-214. 27.Henderson MB, Arrell D, Larsson M, Marchant G. Nickel based superalloy welding practices for industrial gas turbine applications. Sci Technol Weld Join Vol. 9, No. 13, 2004. 28.Nishimoto K, Saida K, Kim D, Nakao Y. Transient liquid phase bonding of nickel-base single crystal superalloy, CMSX-2. ISIJ Int Vol. 35, No. 10, 1995, pp. 298-306.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/65881	-
dc.description.abstract	本實驗先以兩種含B的鎳基填料，真空硬銲接合Inconel 600母材。接合界面經由顯微組織分析可知，當硬銲製程參數改變，能使銲道中心與接合處附近的析出物數量與形態發生改變。提高硬銲溫度與增加持溫時間，會使填料内的B原子藉由擴散進入母材，相對在銲道內的BCr析出物尺寸變小或消失，但相對的在接合處附近，因為B原子擴散進入母材與母材的Cr原子在晶界或者在晶粒上形成連續或顆粒狀的B-Cr化合物，即使最高硬銲溫度與持溫時間的參數，仍然無法有效消除在晶界上的連續狀B-Cr化合物。此外，研究中亦以316不鏽鋼為母材的進行硬銲接合研究，實驗結果發現，在銲道中心會析出BCr2的顆粒狀介金屬化合物，而接合處附近往母材内部，會在晶界上大量連續析出BCrFe三元析出物，當提高硬銲溫度與增加持溫時間時，銲道內的BCr2析出量減少或消失，填料的B原子由晶界擴散進入母材內部，與母材的Fe原子與Cr原子形成BCrFe三元析出物，且隨著硬銲溫度與持溫時間增加時，BCrFe三元析出物變成不連續析出物。	zh_TW
dc.description.abstract	First, the brazing of Inconel 600 using two boron-containing nickel-based fillers has been extensively studied. Based on SEM microstructural and WDS chemical analysis results, the mount and shape of precipitates in the central weld and bonding interface will change with brazing parameters. With increasing brazing temperature and brazing timed diffusion of boron into the base metal, result in decreasing amount of BCr and BCr2 intermetallic compounds in the weld and both continuous as well as granular B-Cr intermetallic compounds formal along grain boundaries. Even the maximum brazing temperature or brazing time are not able to effectively eliminate continuous precipitates along grain bundaries. The next study is brazing 316 stainless steel. According to the experimental results, BCr2 intermetallic conpound is formed in the weld and BCrFe ternary intermetallic phase is observed along grain boundaries at low brazing temperature or time. The brazing joint is primarily consist of Ni/Cr/Fe-rich and BCr2 intermetallic phase. The amount of BCr2 intermetallic compound is decreased in the centeral of weld with increasing brazing temperature and time. Boron content in the filler metal diffuses from weld to the base metal and forms BCrFe ternary intermetallic compound.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T00:14:22Z (GMT). No. of bitstreams: 1 ntu-101-R99527049-1.pdf: 6033947 bytes, checksum: 44d8517a88227f92ddcf3b3b39342fe0 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	口試委員會審定書..........................................i 中文摘要................................................ii 英文摘要................................................iii 目錄...................................................iv 圖目錄..................................................vii 表目錄..................................................xi 第一章前言............................................1 1-1 Inconel 600基材與兩種鎳基填料接合製程.................1 1-2 316不鏽鋼基材與兩種鎳基硬銲填料接合製程.................1 第二章文獻回顧.........................................3 2-1 母材性質簡介........................................3 2-1-1 Inconel 600.....................................3 2-1-2 316不鏽鋼........................................3 2-2 接合製程...........................................3 2-2-1 硬銲製程.........................................4 2-2-2 潤濕角...........................................5 2-2-3 硬銲接合強度主要因素...............................6 2-2-4 填料合金的熔融性質.................................8 2-3 高溫硬銲爐之加熱原理.................................8 第三章實驗方法與步驟....................................18 3-1 Inconel 600基材與MBF51和VZ2150兩種硬銲填料接合製程.....18 3-1-1 Inconel 600腐蝕.................................18 3-1-2 SEM顯微組織分析..................................18 3-2 316不鏽鋼基材與MBF51和VZ2150兩種硬銲填料接合製程........19 3-3 箔片填料............................................19 3-4 EPMA定量分析.......................................19 第四章 Inconel 600基材與MBF51和VZ2150兩種硬銲填料接合製程...23 4-1 Incoenl 600/MBF51/Inconel 600硬銲接合..............23 4-1-1 1150℃持溫10min之接合界面顯微組織...................23 4-1-2 1150℃持溫30min之接合界面顯微組織...................24 4-1-3 1150℃持溫60min之接合界面顯微組織...................24 4-1-4 1180℃持溫10min之接合界面顯微組織...................24 4-1-5 1180℃持溫30min與60min之接合界面顯微組織............25 4-1-6 1200℃持溫10min之接合界面顯微組織...................25 4-1-7 1200℃持溫30min與60min之接合界面顯微組織.............25 4-2 Incoenl 600/VZ2150/Inconel 600硬銲接合.............25 4-2-1 1150℃持溫10min之接合界面顯微組織...................26 4-2-2 1150℃持溫30min之接合界面顯微組織...................26 4-2-3 1150℃持溫60min之接合界面顯微組織...................27 4-2-4 1180℃持溫10min之接合界面顯微組織...................27 4-2-5 1180℃持溫30min與持溫60min之接合界面顯微組織.........27 4-2-6 1200℃持溫10min之接合界面顯微組織...................28 4-2-7 1200℃持溫30min與持溫60min之接合界面顯微組織.........28 第五章 316不鏽鋼基材與MBF51和VZ2150兩種硬銲填料接合製程......49 5-1 316不鏽鋼/MBF51/316不鏽鋼硬銲接合....................49 5-1-1 1150℃持溫10min之接合界面顯微組織...................49 5-1-2 1150℃持溫30min與持溫60min之接合界面顯微組織.........50 5-1-3 1180℃持溫10min、30min與60min之接合界面顯微組織......50 5-1-4 1200℃持溫10min、30min與60min之接合界面顯微組織......51 5-2 316不鏽鋼/VZ2150/316不鏽鋼硬銲接合...................51 5-2-1 1150℃持溫10min之接合界面顯微組織...................51 5-2-2 1150℃持溫30min與持溫60min之接合界面顯微組織.........52 5-2-3 1180℃持溫10min、30min與60min之接合界面顯微組織......53 5-2-4 1200℃持溫10min、30min與60min之接合界面顯微組織......53 第六章結論............................................66 6-1 Inconel 600基材與MBF51和VAC2150兩種硬銲填料接合製程....66 6-2 316不鏽鋼基材與MBF51和VZ2150兩種硬銲填料接合製程........66 參考文獻................................................68
dc.language.iso	zh-TW
dc.title	使用鎳基填料硬銲兩種金屬基材之研究	zh_TW
dc.title	The Study of Brazing Two Metallic Substrates Using Ni-Based Fillers	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林新智,溫政彥,蔡履文,郭東昊
dc.subject.keyword	鎳基填料,鎳基合金,不鏽鋼,硬銲溫度,持溫時間,	zh_TW
dc.subject.keyword	Nickel-based filler,Ni-based alloy,Brazing temperature,Brazing time,Stainless Steel,	en
dc.relation.page	69
dc.rights.note	有償授權
dc.date.accepted	2012-07-06
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	材料科學與工程學研究所	zh_TW
顯示於系所單位：	材料科學與工程學系

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