PVB/PEG-Based Feedstocks for Injection Molding of Alumina Microreactor Components

The ceramic injection molding (CIM) process is a cost-effective powder-based near net shape manufacturing process for large-scale production of complex-shaped ceramic functional components. This paper presents the rheological analysis of environmentally friendly CIM feedstock formulations based on the binder components polyvinyl butyral (PVB) and polyethylene gycol (PEG). The prepared PVB/PEG-based alumina molding compounds were investigated with respect to their PVB:PEG ratios as well as to their powder filling degrees in the range between 50 and 64 vol.%. Corresponding viscosities and shear stresses were determined for increasing shear rates to show the effects of increased PEG content and solid loadings on them. Two single reactor components were injection molded and subsequently joined in their green state for fabrication of an alumina microreactor. The intended purpose of the alumina microreactors is their potential application as wear-resistant and hydrothermal stable multifunctional devices (µ-mixer, µ-reactor, µ-analyzer) for continuous hydrothermal synthesis (CHTS) of metal oxide nanoparticles in supercritical water (sc-H2O) as the reaction medium.

[1]  V. Piotter,et al.  Investigation of Feedstock Preparation for Injection Molding of Oxide–Oxide Ceramic Composites , 2019, Journal of Manufacturing and Materials Processing.

[2]  Erwin Peng,et al.  Ceramic Robocasting: Recent Achievements, Potential, and Future Developments , 2018, Advanced materials.

[3]  Michael Türk Design metalloxidischer Nanopartikel mittels kontinuierlicher hydrothermaler Synthese , 2018 .

[4]  V. Piotter,et al.  Opportunities for producing dimensionally enhanced powder-injection-molded parts , 2017 .

[5]  B. Hausnerova,et al.  Specific interactions of low molecular weight analogues of carnauba wax and polyethylene glycol binders of ceramic injection moulding feedstocks , 2015 .

[6]  J. Ghani,et al.  Binder removal via a two-stage debinding process for ceramic injection molding parts , 2014 .

[7]  N. Chuankrerkkul,et al.  Properties of Porous Alumina Fabricated by Ceramic Injection Moulding Using Environmentally Friendly Binder , 2012 .

[8]  J. Korvink,et al.  Simulation of micro powder injection moulding : Powder segregation and yield stress effects during form filling , 2011 .

[9]  Youn-Woo Lee,et al.  Green materials synthesis with supercritical water , 2011 .

[10]  A. Saroha Green Process Engineering , 2009 .

[11]  I. Chen,et al.  Sintering dense nanocrystalline ceramics without final-stage grain growth , 2000, Nature.

[12]  Byung‐Nam Kim,et al.  Strengthening mechanism of alumina ceramics prepared by precoarsening treatments , 1996 .

[13]  H. Münstedt,et al.  Rheological behaviour of a filled wax system , 1996 .

[14]  K. Hsu,et al.  The effect of wax composition on the injection molding of carbonyl iron powder with ldpe , 1996 .

[15]  C. R. Wildemuth,et al.  Viscosity of suspensions modeled with a shear-dependent maximum packing fraction , 1984 .

[16]  Khanittha Noomun,et al.  Powder Injection Moulding of Dental Ceramic Brackets Using Water Soluble Binder , 2018 .

[17]  T. Hanemann,et al.  Design of metal oxide nanoparticleswithcontinuoushydrothermal synthesis , 2017 .

[18]  T. Hanemann,et al.  Polymethylmethacrylate/polyethyleneglycol-based partially water soluble binder system for micro ceramic injection moulding , 2014 .

[19]  J. Ghani,et al.  Fabrication of zirconia-toughened alumina parts by powder injection molding process: Optimized processing parameters , 2014 .

[20]  B. Hausnerova,et al.  Rheological characterization of powder injection moulding using feedstock based on aluminium oxide and multicomponent water-soluble polymer binder , 2011 .

[21]  K. Schwartzwalder Ceramic injection moulding: a review of developments in production technology, materials and applications , 2010 .

[22]  P. Šajgalík,et al.  Two‐Stage Sintering of Alumina with Submicrometer Grain Size , 2007 .

[23]  Wen-Cheng J. Wei,et al.  Effects of mixing sequence on alumina prepared by injection molding , 1998 .

[24]  T. Tadros Surface and colloid chemistry in advanced ceramics processing , 1995 .