Direct and indirect 3D printing with geopolymers...Direct and indirect 3D printing with geopolymers...
Transcript of Direct and indirect 3D printing with geopolymers...Direct and indirect 3D printing with geopolymers...
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Dipartimento di Ingegneria Industriale
Direct and indirect 3D printing with geopolymers
G. Franchin1, H. Elsayed1, P. Scanferla1, A. De Marzi1, F. Gobbin1, L. Zeffiro1, A. Conte1, A. Italiano2, P. Colombo1,3
1 Industrial Engineering Dept., University of Padova, Italy 2 Desamanera, Borsea (RO), Italy 3 Dept. of Material Science and Engineering, The Pennsylvania State University, PA, USA
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Advanced Ceramics and Glasses
Heads: Prof. Paolo Colombo and Prof. Enrico Bernardo
Research topics: - Additive manufacturing of ceramics and glasses
- Highly porous ceramic structures and foams
- Polymer derived ceramics and geopolymers
- Biosilicates
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Indirect 3D printing for ceramics
A. Zocca, P. Colombo, C.M. Gomes, J. Guenster., “Additive Manufacturing of Ceramic-Based Materials,” J. Am. Ceram. Soc., 98 (2015) 1983–2001
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N. Travitzky et al., Additive Manufacturing of Ceramic-Based Materials, Adv. Eng. Mater., 16 (2014) 729–754
Direct 3D printing for ceramics
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Direct and indirect AM - pros and cons
Direct AM
PROS - better adhesion between layers - rheology optimisation - higher densities - higher spatial flexibility
CONS - limited by reaction times - limited complexity without support
material - heat development can cause issues
Indirect AM
PROS - higher speeds - simpler rheology requirements - higher material and design flexibility - filler can adsorb heat
CONS - poorer adhesion between layers - higher residual porosity - lower spatial flexibility - complex powder mixture required to
assure flowability:
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FEATURES: - Cheap and sustainable raw materials (wastes)
- room T consolidation
- fast setting reactions
- low CO2 emissions during production
- dense gel-like structure with intrinsic pseudo-plasticity
Why geopolymers?
CHALLENGE: 4D PRINTING
reactive mixture
geopolymerization proceeds with time
time-dependent rheology
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DESAMANERA
Large scale indirect 3DP
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Original binder - Magnesium oxide in the powder bed
- Clorurate solution as liquid binder
- adequate mechanical properties
- high residual porosity
- slow setting
- non-hydraulic cement
Printing mechanism
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Validation of the lab procedure - original binder → same density and
mechanical properties as printed parts
- constant volume of binder
Replica of the industrial process
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Samples: 10x1.5x1.5 cm3
1 cm
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Na-based MK-750 geopolymer
Water content optimisation
→ influence on reactivity, wettability,
rheology
Water content not optimised
Geopolymer formulation
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- Interface between layers still visible
- lower residual porosity
Original binder Geopolymer
Microstructure
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Original binder Geopolymer
5 mm5 mm
Microstructure
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transverse
longitudinal
Interface between layers
→ anisotropic behaviour
Mechanical properties
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- Significant increase of mechanical properties and durability
- Significant decrease of residual porosity
- Need of adapting the printer for the new binder
Mechanical properties and density
BinderσCOMPR
transverse (MPa)
σGeo
σOriginal
σCOMPR longitudinal
(MPa)
σGeo
σOriginal
Mean open
porosity (vol%)
Original 1.58 ± 0.11415%
2.13 ± 0.05772%
43.8 ± 2.1
Geopolymer 6.56 ± 2.16 16.45 ± 3.50 30.4 ± 2.5
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CHALLENGE thin walls and spanning features
→ optimisation of the ink rheology
→ use of additives
Nozzle size: 100 to 1500 µm
X & Y axis resolution: 120 µm
Z axis resolution: 4 µm
Direct AM of geopolymers
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- Formation of 3D poly(sialate-siloxo) network → viscosity increase with time
- Intrinsic pseudo-plastic behaviour + additives
- Limited working time
Ink features
flow curve, shear rates ramping from 0.1 1/s to 100 1/s
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Ink features
- physical, reversible gel formation
- initial yield stress → prevents spontaneous flow
strain sweep test, strain ramping logarithmically from 0.001% to 100% at 1Hz frequency
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Fast increase in viscosity after
extrusion
→ low deflection for printed overhang
structures or spanning features
Spanning distance: 2 mm
Filament diameter: 0.84 mm
Deflection ~0.25 mm
Ink features
viscosity recovery test midspan deflection evaluation
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Ink development and optimisation
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Process overview
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Regular structure
No sagging of filaments
→ increasing spanning lengths
Good interface between filaments
Mix optimisation
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23Increased complexity Proposed application:
filters
Results
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Fly ashes addition + pseudo-plasticiser, retarding agent
Experimentation on different inks
K-based geopolymer leucite formation after heat treatment
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Porous struts
Hierarchical porosity
Experimentation on different inks
Na-based geopolymer nepheline formation after heat treatment
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- Geopolymers have been used as binders for indirect AM
1 cm
- Geopolymer inks have been printed via DIW
Conclusions
FUTURE GOALS: - increase repeatability - widen materials window
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Dipartimento di Ingegneria Industriale
Thank you for your attention!