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Journal of Materials Science

Erschienen in:

13.01.2022 | Polymers & biopolymers

Adsorption effects of polyethylene imine on the rheological properties for robocasting

verfasst von: Shihao Sun, Qian Xia, Dong Feng, Hongqiang Ru

Erschienen in: Journal of Materials Science | Ausgabe 4/2022

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Abstract

SiC colloidal inks for the novel robocasting forming method were prepared using a two-step method, namely creating well-dispersed suspensions followed by inducing gelation via changing the pH values towards isoelectric points (IEPs). The effect of the adsorption behaviour of Polyethylene imine (PEI) on the rheological properties was systematically investigated for the both steps. Coincidentally, as SiC particles were saturated adsorbed with PEI, their respective rheological properties exhibited the optimum. For the first step, the strongest electrostatic repulsion was exhibited between SiC particles, and the corresponding suspension displayed the optimum dispersibility with a low shear viscosity (η₀) of 27.86 Pa. For the second step, the colloidal gel presented the strongest elastic properties with an equilibrium storage modulus (G′) of 13,381.87 Pa and shear yield stress (τ_y) of 355.89 Pa. The colloidal gel ink with solid loading as high as 51 vol.% behaved in a yield-pseudoplastic manner and was successfully utilized to fabricate 3-D periodic lattice structures.

Vorheriger Artikel Identification of the main mixing process in the synthesis of alloy nanoparticles by laser ablation of compacted micropowder mixtures

Nächster Artikel Positively charged loose nanofiltration membranes prepared by a green ionic cross-link method

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Franks GV, Tallon C, Studart AR, Sesso ML, Leo S (2017) Colloidal processing: enabling complex shaped ceramics with unique multiscale structures. J Am Ceram Soc 100:458–490CrossRef

Avadiar L, Leong YK (2011) Interactions of PEI (polyethylenimine)-silica particles with citric acid in dispersions. Colloid Polym Sci 3:237–245CrossRef

Lakhdar Y, Tuck C, Terry A, Goodridge R (2020) Dispersion and stability of colloidal boron carbide suspensions. Ceram Int 46:27957–27966CrossRef

Uchikoshi T, Suzuki TS (2014) Dispersion/coagulation and colloidal processing of ceramic particles. J Soc Powder Technol Jpn 51:462–472CrossRef

Gan K, Gai Y, Wang Y (2020) Direct coagulation casting of silicon carbide suspension via polyelectrolyte dispersant crosslink reaction. Int J Appl Ceram Tec 17:274–284CrossRef

Li W, Zhang H, Jin Y, Gu M (2004) Rapid coagulation of silicon carbide slurry via direct coagulation casting. Ceram Int 30:411–416CrossRef

Lu YJ, Gan K, Liu JJ, Ren B, Rong YD, Zhang XY, Rong YD, Xu J, Yang JL (2019) Gelcasting of alumina via cross-linking of a polyelectrolyte dispersant. Ceram Int 46:8308–8313CrossRef

Bergstrm L, Sjstrm E (1999) Temperture induced gelation of concentrated ceramic suspensions. J Eur Ceram Soc 19:2117–2123CrossRef

Xu X, Mei S, Ferreira JM, Nishimura T, Hirosaki N (2004) Temperature-induced gelation of concentrated silicon carbide suspensions. J Colloid Interface Sci 277:111–115CrossRef

10.

Liu XQ, Bao RY, Wu XJ, Yang W, Xie BH, Yang MB (2015) Temperature induced gelation transition of a fumed silica/PEG shear thickening fluid. RSC Adv 5:18367–18374CrossRef

11.

Smay JE, Gratson GM, Shepherd RF, Casarano J, Lewis JA (2002) Directed colloidal assembly of 3D periodic structures. Adv Mater 14:1279–1283CrossRef

12.

Siamak E, Motealleh A, Perera FH (2018) Fabricating geometrically-complex B4C ceramic components by robocasting and pressureless spark plasma sintering. Scr Mater 145:14–18CrossRef

13.

Wahl L, Lorenz M, Biggemann J, Travitzky N (2019) Robocasting of reaction bonded silicon carbide structures. J Eur Ceram Soc 15:4520–4526CrossRef

14.

Sigmund WM, Bell NS, Bergström L (2000) Novel powder-processing methods for advanced ceramics. J Am Ceram Soc 83:1557–1574CrossRef

15.

Sun Y, Peng C, Wang X, Wang R, Yang J, Zhang D (2017) Rheological behavior of Al₂O₃ suspensions containing polyelectrolyte complexes for direct ink writing. Powder Technol 320:223–229CrossRef

16.

Peng E, Zhang D, Ding J (2018) Ceramic robocasting: recent achievements, potential, and future developments. Adv Mater 30:e1802404CrossRef

17.

Cai K, Manso BR, Smay JE, Zhou J, Osendi MI, Belmonte M, Miranzo P, Kleebe HJ (2012) Geometrically complex silicon carbide structures fabricated by robocasting. J Am Ceram Soc 95:2660–2666CrossRef

18.

Channell GM, Miller KT, Zukoski CF (2010) Effects of microstructure on the compressive yield stress. AiChE J 46:72–78CrossRef

19.

Liao J, Chen H, Luo H, Wang X, Zhou K, Zhang D (2017) Direct ink writing of zirconia three-dimensional structures. J Mater Chem C 5:5867–5871. https://doi.org/10.1039/C7TC01545CCrossRef

20.

Zhang Y, Binner J (2008) Effect of dispersants on the rheology of aqueous silicon carbide suspensions. Ceram Int 34:1381–1386CrossRef

21.

Peng E, Wei X, Garbe U, Yu D, Edouard B, Liu A, Ding J (2017) Robocasting of dense yttria-stabilized zirconia structures. J Mater Sci 53:247–273. https://doi.org/10.1007/s10853-017-1491-xCrossRef

22.

Barick P, Saha BP, Mitra R, Joshi SV (2015) Effect of concentration and molecular weight of polyethylenimine on Zeta potential, isoelectric point of nanocrystalline silicon carbide in aqueous and ethanol medium. Ceram Int 41:4289–4293CrossRef

23.

Cano AD, Trice RW, Youngblood JP (2017) Stabilization of highly-loaded boron carbide aqueous suspensions. Ceram Int 43:8572–8578CrossRef

24.

Guo LC, Zhang Y, Uchida N, Uematsu K (2005) Adsorption effects on the rheological properties of aqueous alumina suspensions with polyelectrolyte. J Am Chem Soc 81:549–556

25.

Zhang JX, Jianga DL, Tana SH, Gui LH, Ruan ML (2011) Aqueous processing of SiC green sheets I: dispersant. J Mater Res 17:2012–2018CrossRef

26.

Sun J, Gao L (2001) Dispersing SiC powder and improving its rheological behaviour. J Eur Ceram Soc 21:2447–2451CrossRef

27.

Zhang J, Xu Q, Ye F, Lin Q, Jiang D, Iwasa M (2006) Effect of citric acid on the adsorption behavior of polyethylene imine (PEI) and the relevant stability of SiC slurries. Colloids Surf A 276:168–175CrossRef

28.

Leong YK, Boger DV, Scales PJ, Healy TW, Buscall R (1993) Control of the rheology of concentrated aqueous colloidal systems by steric and hydrophobic forces. J Chem Soc Chem Commun 7:639–641CrossRef

29.

Lee SH, Sakka Y, Kagawa Y (2010) Dispersion behavior of ZrB₂ powder in aqueous solution. J Am Ceram Soc 90:3455–3459CrossRef

30.

Larson CM, Choi JJ, Gallardo PA, Henderson SW, Niemack MD, Rajagopalan G, Shepherd RF (2016) Direct ink writing of silicon carbide for microwave optics. Adv Eng Mater 18:39–45CrossRef

31.

Tu T, Jiang G (2018) SiC reticulated porous ceramics by 3D printing, gelcasting and liquid drying. Ceram Int 44:3400–3405CrossRef

32.

Chen H, Wang X, Xue F, Huang Y, Zhou K, Zhang D (2018) 3D printing of SiC ceramic: direct ink writing with a solution of preceramic polymers. J Eur Ceram Soc 38:5294–5300CrossRef

Titel: Adsorption effects of polyethylene imine on the rheological properties for robocasting
verfasst von: Shihao Sun
Qian Xia
Dong Feng
Hongqiang Ru
Publikationsdatum: 13.01.2022
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 4/2022
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-021-06802-4

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