Effect of Polyvinylpyrrolidone Additions on the Rheology of Aqueous, Highly Loaded Alumina Suspensions

Acosta, M.; Wiesner, Valerie L.; Martínez, Carlos; Trice, Rodney W.; Youngblood, Jeffrey P.

doi:10.1111/jace.12277

Cited by 57 publications

(34 citation statements)

References 59 publications

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“…An increase in the solids loading has been shown to increase the viscosities of ceramic suspensions due to an increase in the inter-particle interactions and inter-particle collisions [15,32,37,38]. A study with aqueous alumina suspensions dispersed with polyvinylpyrrolidone showed that an increase in polymer molecular weight increased the viscosity of the suspensions due to the increase in chain entanglements [18,34,35].…”

Section: Rheological and Viscoelastic Characterization Of Suspensionsmentioning

confidence: 99%

“…Once the applied shear stress exceeds the yield stress, the suspension flows and parts can be constructed by rastering the extrudate in a controlled fashion, building up the part layer by layer. Upon removal of the shear stress the yield stress of the suspension quickly develops again, prohibiting the formed part from slumping due to either gravity or its own weight [9,15,[17][18][19]. Suspensions are typically designed with high solids loading for two reasons.…”

Section: Introductionmentioning

confidence: 99%

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Additive manufacturing of boron carbide via continuous filament direct ink writing of aqueous ceramic suspensions

Costakis

Rueschhoff

Diaz-Cano

et al. 2016

Journal of the European Ceramic Society

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158

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Section: Rheological and Viscoelastic Characterization Of Suspensionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Additive manufacturing of boron carbide via continuous filament direct ink writing of aqueous ceramic suspensions

Costakis

Rueschhoff

Diaz-Cano

et al. 2016

Journal of the European Ceramic Society

Self Cite

158

View full text Add to dashboard Cite

“…Using a previously developed suspension formulation, ceramic suspensions composed of a ceramic powder, dispersant, polymer binder, and water can be utilized for direct writing complex ceramic objects. Alumina has been used in preliminary experiments as a model material due to its low cost, availability, and ease of densification.…”

Section: Introductionmentioning

confidence: 99%

“…Alumina has been used in preliminary experiments as a model material due to its low cost, availability, and ease of densification. Previous studies have optimized alumina suspensions using PVP as a binder and a cationic polyelectrolyte as a dispersant. In prior work, PVP has been shown to increase green body strength and machinability of alumina parts prepared by room‐temperature injection molding.…”

Section: Introductionmentioning

confidence: 99%

“…The use of PVP will not only allow for more robust and machinable green bodies, but will also offer unique flow properties that can be more precisely tailored for this process. Preliminary research found that for a 50 vol.% alumina suspension a threefold increase in yield stress was obtained when adding just 1 vol.% of PVP (55,000 g/mol) . Injection molding studies on these alumina suspensions found 2.5–5.0 vol.% of PVP (55,000 g/mol) to provide adequate yield stresses and viscosities needed to form robust, machinable green bodies .…”

Section: Introductionmentioning

confidence: 99%

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Additive Manufacturing of Dense Ceramic Parts via Direct Ink Writing of Aqueous Alumina Suspensions

Rueschhoff

Costakis

Michie

et al. 2016

Int J Applied Ceramic Tech

188

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Additive manufacturing of near‐net‐shaped dense ceramic components has been established via room‐temperature direct writing of highly loaded aqueous alumina suspensions in a layer‐by‐layer fashion. The effect of alumina solid loading on rheology, specimen uniformity, density, microstructure, and mechanical properties was studied. All suspensions contained a polymer binder (~5 vol.%), dispersant, and 51–58 vol.% alumina powder. Rheological measurements indicated all suspensions to be yield‐pseuodoplastic, and both yield stress and viscosity were found to increase with increasing alumina solid loading. Shear rates ranging from 19.5 to 24.2/s, corresponding to viscosities of 9.8 to 17.2 Pa·s, for the 53–56 vol.% alumina suspensions were found to produce the best results for the 1.25‐mm tip employed during writing. All parts were sintered to >98% of true density, with grain sizes ranging from 3.2 to 3.7 μm. The average flexure strength, which ranged from 134 to 157 MPa, was not influenced by the alumina solid loading.

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Rheological Characterization ofN‐VinylPyrrolidone andN‐VinylCaprolactam‐Based Polymers

Ozkan¹,

McMullen²

2021

Handbook of Pyrrolidone and Caprolactam Based Materials

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This chapter discusses the rheology of linear and crosslinked polymers based on N‐vinylpyrrolidone and N‐vinylcaprolactam in different physical states, such as dilute solution, complex fluid, or molten fluid. A review of the basic concepts of rheology starting with the development of the Boltzman superposition principle is followed by an in‐depth discussion of linear viscoelasticity. The chapter introduces the concepts related to rheological models of viscoelasticity and how these relate to the dynamics of polymer systems. The basic definition of rheology is the science of flow and deformation of matter. Developments in computational rheology have improved the accuracy of both continuum mechanics and molecular dynamics‐based model predictions. Poly(vinyl pyrolidone) has also been evaluated as a rheology modifier and as an additive to generate porosity in electrospun nanofiber technology for tissue regeneration. Rheological characterization was conducted using a parallel plate rheometer at ambient conditions.

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Effect of Polyvinylpyrrolidone Additions on the Rheology of Aqueous, Highly Loaded Alumina Suspensions

Cited by 57 publications

References 59 publications

Additive manufacturing of boron carbide via continuous filament direct ink writing of aqueous ceramic suspensions

Additive manufacturing of boron carbide via continuous filament direct ink writing of aqueous ceramic suspensions

Additive Manufacturing of Dense Ceramic Parts via Direct Ink Writing of Aqueous Alumina Suspensions

Rheological Characterization ofN‐VinylPyrrolidone andN‐VinylCaprolactam‐Based Polymers

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