Abstract
Recently, co-powder injection molding process (2C-PIM) has attained considerable interest to fabricate complex-shaped functional materials. The aim of this work is to study the sintering compatibility between nanocrystalline yttria-stabilized zirconia (3Y-TZP) and PIM grade 430L stainless steel (SS) powders, which is the utmost important step in the 2C-PIM process. To evaluate the mismatch strain development during the co-sintering, the isothermal and nonisothermal behaviors of the ceramic and metal powders were studied. Small bilayers of 3Y-TZP/430L were made by a powder metallurgy technique and the feasibility of simultaneous sintering and joining of the composite layer was examined. Electron probe micro-analyzer (EPMA) was used to study the joint interface. The shear strength of the bond was tested by a shear-punch instrument. It is shown that the amount of mismatch sintering shrinkage between the zirconia ceramic and SS powder during sintering can be as high as 9.7%. Meanwhile, sintering in vacuum induced lower mismatch strain compared to argon sintering. It is also shown that formation of a liquid phase by boron addition to the SS layer could assist bonding. The liquid phase accommodates the mismatch sintering shrinkage and ease materials transfer at the interface. EPMA analysis confirmed the interlayer diffusion of Zr, Fe, and Cr during sintering to form a ternary Zr–Fe–Cr oxide interface.
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Kim KT, Kim HG, Jang HM (1998) Int J Eng Sci 36:1295
Correia RN, Emiliano JV (1998) J Mater Sci 33:215. doi:https://doi.org/10.1023/A:1004378520526
Mazaheri M, Simchi A, Golestani-Fard F (2008) J Eur Ceram Soc 28:2933
Munoz MC, Gallego S, Beltran JI, Cerda J (2006) Surf Sci Rep 61:303
Jadoon AK, Ralph B, Hornsby PR (2004) J Mater Proc Technol 152:257
Singh M, Shpargel TP, Asthana R (2008) J Mater Sci 43:23. doi:https://doi.org/10.1007/s10853-007-1985-z
Akselsen OM (1992) J Mater Sci 27:1989. doi:https://doi.org/10.1007/BF01117909
Wang Z, Qian J, Cao J, Wang S, Wen T (2007) J Alloys Compd 437:264
Harach DJ, Vecchio KS (2001) Met Mater Trans A 32:1493
Yeo JG, Jung YG, Choi SC (1998) J Eur Ceram Soc 18:1281
Biswas K, Upadhyaya GS (1998) Mater Des 19:231
Yun JW, Lombardo SJ (2008) J Am Ceram Soc 91:1553
Larker R, Wei LY, Loberg B, Olsson M, Johansson S (1994) J Mater Sci 29:4404. doi:https://doi.org/10.1007/BF00414229
Zhang W, Xie J, Wang C (2004) Mater Sci Eng A 382:371
Yen SK, Guo MJ, Zan HZ (2001) Biomaterials 22:125
Hussain P, Isnin A (2001) J Mater Proc Technol 113:222
Scheu C, Gao M, Oh SH, Dehm G, Klein S, Tomsia AP, Rühle M (2006) J Mater Sci 41:5161. doi:https://doi.org/10.1007/s10853-006-0073-0
Li J, Xiao P (2004) J Eur Ceram Soc 24:2149
Nemoto Y, Ueda K, Satou M, Hasegawa A, Katsunori K (1998) J Nucl Mater 258–263:1517
Vila M, Martinez ML, Prieto C, Miranzo P, Osendi MI, Terry A, Vaughan G (2004) Powder Technol 148:60
Yeo JG, Jung YG, Choi S-C (1998) Mater Lett 37:304
Ozawa M, Kawagoe M, Suzuku S (2004) J Mater Sci 39:1337. doi:https://doi.org/10.1023/B:JMSC.0000013894.68512.a5
Li JQ, Zeng XR, Tang JN, Xiao P (2003) J Eur Ceram Soc 23:1847
Muller AC, Herbstritt D, Ivers-Tiffe E (2002) Solid State Ion 152–153:537
Li J, Xiao P (2001) J Mater Sci 36:1383. doi:https://doi.org/10.1023/A:1017503503711
Morsi K, Patel VV, Moon KS, Garay JE (2008) J Mater Sci 43:4050. doi:https://doi.org/10.1007/s10853-007-2225-2
Vanmeensel K, Huang SG, Laptev A, Salehi SA, Swarnakar AK, Biest OV, Vleugels J (2008) J Mater Sci 43:6435. doi:https://doi.org/10.1007/s10853-008-2631-0
Lee JG, Ma HA, Lee XL, Zheng YJ, Zuo GH, Jia X (2007) J Mater Sci 42:9460. doi:https://doi.org/10.1007/s10853-007-1934-x
Bruck HA, Shabana YM, Xu B, Laskis JP (2007) J Mater Sci 42:7708. doi:https://doi.org/10.1007/s10853-007-1675-x
Kodera Y, Toyofuku N, Yamasaki H, Ohyanagi M, Munir ZA (2008) J Mater Sci 43:6422. doi:https://doi.org/10.1007/s10853-008-2782-z
Muroi M, Trotter G, McCormick PG, Kawahara M, Tokita M (2008) J Mater Sci 43:6376. doi:https://doi.org/10.1007/s10853-008-2559-4
MacAskill IA, Bishop DP (2007) J Mater Sci 42:4149. doi:https://doi.org/10.1007/s10853-006-0893-y
Ruh A, Dieckmann AM, Heldele R, Piotter V, Ruprecht R, Munzinger C, Fleischer J, Haußelt J (2008) Microsyst Technol 14:1805. doi:https://doi.org/10.1007/S00542-008-0646-8
Stephenson DJ (2000) Ann CIRP 49/1:191
Alcock JR, Logan PM, Stephenson DJ (1998) Surf Coat Technol 105:65
Heaney DF, Suri P, German RM (2003) J Mater Sci 38:4869. doi:https://doi.org/10.1023/B:JMSC.0000004407.63082.f1
Imgrund P, Rota A, Simchi A (2008) J Mater Proc Technol 200:259
Imgrund P, Rota A, Petzoldt F, Simchi A (2007) Int J Adv Manuf Tech 33:176
Simchi A, Rota A, Imgrund P (2006) Mater Sci Eng A 424:282
Simchi A (2006) Met Mater Trans A 37:2549
Firozdour V, Simchi A, Kokabi AH (2007) J Mater Sci 43:55. doi:https://doi.org/10.1007/s10853-007-2077-9
Dourandish M, Simchi A, Godlinski D (2008) Mater Sci Eng A 472:338
Feng J, Qiu M, Fan Y, Xu N (2007) J Membrane Sci 305:20
Baumann A, Moritz T, Lenk R (2007) Keram Z 59(5):346
Baumann AA, Moritz T, Lenk R (2007) Proceedings of European Powder Metallurgy Congress and Exhibition (EURO PM2007), vol 2. Toulouse, France, October 2007, p 189
Menon M, Chen IW (1999) J Am Ceram Soc 82:3422
Cai PZ, Green DJ, Messing GL (1997) J Am Ceram Soc 80:1929
Cai PZ, Green DJ, Messing GL (1997) J Am Ceram Soc 80:1940
Liao CH, Jean JH, Hung YY (2008) J Am Ceram Soc 91:648
Chang JC, Jean JH (2005) J Am Ceram Soc 88:1165
Boonyongmaneerat Y, Schuh CA (2006) Met Mater Trans 37A:1435
Delannay F, Pardoen D, Colin C (2005) Acta Mater 53:1655
Kazior J, Nykiel M, Pieczonka T, Marcu Puscas T, Molinari A (2004) J Mater Proc Technol 157–158:712
Özbek I, Konduk BA, Bindal C, Ucisik AH (2002) Vacuum 65:521
Tonnes C (1992) Met Powder Rep 47:49
Suri P, Heaney DF, German RM (2003) J Mater Sci 38:4875. doi:https://doi.org/10.1023/B:JMSC.0000004408.44675.f6
Cullity BD (1978) Elements of X-ray diffraction, 2nd edn. Addison-Wesley Publishing Company Inc, Massachusetts
Theunissen GSAM, Winnubst AJA, Burggraaf AJ (1993) J Eur Ceram Soc 11:315
Sobczak N, Sobczak J, Nowak R, Kudyba A, Darlak P, Mikulowski B, Wojiechowski A (2005) J Mater Sci 40:2547. doi:https://doi.org/10.1007/s10853-005-1990-z
Simchi A, Petzoldt F, Hartwig T (2005) Proceedings of Euro PM2005 Conference and Congress, vol 2. EPMA, Shrewsbury, UK, p 357
Sarkar K, Sund SE, Bose D, Yamanis J (1990) Math Comput Model 14:842
Mazaheri M (2007) MS Thesis. Sharif University of Technology, Tehran
Park JW, Mendez PF, Eagar TW (2005) Scr Mater 53:857
Darby RJ, Kumar RV (2008) J Mater Sci 43:6567. doi:https://doi.org/10.1007/s10853-008-2983-5
Qin CD, Derby B (1993) J Mater Sci 28:4366. doi:https://doi.org/10.1007/BF01154944
Durov AV, Naidich YV, Kostyuk BD (2005) J Mater Sci 40:2173. doi:https://doi.org/10.1007/s10853-005-1928-5
Teng LD, Wang FM, Lia WC (2000) Mater Sci Eng A293:130
Ravi BG, Chaim R (2002) J Mater Sci 37:813. doi:https://doi.org/10.1023/A:1013804301381
Nikolopoulos P, Ondracek G, Sotiropoulou D (1989) Ceram Int 15:201
Zhu J, Kamiya A, Yamada T, Shi W, Naganuma K, Mukai K (2002) Mat Sci Eng A327:117
Nakashima K, Matsumoto H, Mori K (2000) Acta Mater 48:4677
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Dourandish, M., Simchi, A. Study the sintering behavior of nanocrystalline 3Y-TZP/430L stainless-steel composite layers for co-powder injection molding. J Mater Sci 44, 1264–1274 (2009). https://doi.org/10.1007/s10853-008-3241-6
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DOI: https://doi.org/10.1007/s10853-008-3241-6