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SEM micrographs of powders
Din: XRD and TG-DTA Study of New Alkali Activated Materials Based on Fly Ash with Sand and Glass Powder (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#SEM#microstructure#fly-ash#glass
Process flow for geopolymer preparation
Din: XRD and TG-DTA Study of New Alkali Activated Materials Based on Fly Ash with Sand and Glass Powder (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#process#geopolymer#synthesis
Specimens and measurement scheme
Din: Concrete Compressive Strength by Means of Ultrasonic Pulse Velocity and Moduli of Elasticity (Materials, 2021).
DOI.
© Autori, MDPI, CC BY 4.0.
#UPV#methodology#NDT
Methodology: UPV ? Elastic moduli ? f'c
Din: Concrete Compressive Strength by Means of Ultrasonic Pulse Velocity and Moduli of Elasticity (Materials, 2021).
DOI.
© Autori, MDPI, CC BY 4.0.
#model#methodology#UPV
Saltwater immersion ? visual appearance (C45 / PS / PPS)
Din: Immersion Behavior of Carbon Steel, Phosphate Carbon Steel and Phosphate and Painted Carbon Steel in Saltwater (Materials, 2021).
DOI.
© Autori, MDPI, CC BY 4.0.
#immersion#seawater#paint#phosphate
EIS Nyquist plot and equivalent circuit
Din: Immersion Behavior of Carbon Steel, Phosphate Carbon Steel and Phosphate and Painted Carbon Steel in Saltwater (Materials, 2021).
DOI.
© Autori, MDPI, CC BY 4.0.
#EIS#equivalent-circuit#Nyquist
SEM micrographs after immersion
Din: Immersion Behavior of Carbon Steel, Phosphate Carbon Steel and Phosphate and Painted Carbon Steel in Saltwater (Materials, 2021).
DOI.
© Autori, MDPI, CC BY 4.0.
#SEM#corrosion#surface
EDS spectrum and elemental maps
Din: Immersion Behavior of Carbon Steel, Phosphate Carbon Steel and Phosphate and Painted Carbon Steel in Saltwater (Materials, 2021).
DOI.
© Autori, MDPI, CC BY 4.0.
#EDS#mapping#composition
SEM: fly ash vs. bottom ash
Din: XRD and TG-DTA Study of New Phosphate-Based Geopolymers with Coal Ash or Metakaolin as Aluminosilicate Source and Mine Tailings Addition (Materials, 2022).
DOI.
© Autori, MDPI, CC BY 4.0.
#SEM#fly-ash#bottom-ash
XRD: raw materials (CA, MK, MT)
Din: XRD and TG-DTA Study of New Phosphate-Based Geopolymers with Coal Ash or Metakaolin as Aluminosilicate Source and Mine Tailings Addition (Materials, 2022).
DOI.
© Autori, MDPI, CC BY 4.0.
#XRD#raw#materials
XRD: geopolymer samples (MK-geo, CAMK, CA-geo)
Din: XRD and TG-DTA Study of New Phosphate-Based Geopolymers with Coal Ash or Metakaolin as Aluminosilicate Source and Mine Tailings Addition (Materials, 2022).
DOI.
© Autori, MDPI, CC BY 4.0.
#XRD#geopolymers
Phosphating process flow diagram
Din: Evaluation of the Corrosion Resistance of Phosphate Coatings Deposited on the Surface of the Carbon Steel Used for Carabiners Manufacturing (Applied Sciences, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#process#phosphating#flow
SEM morphology of phosphate layers
Din: Evaluation of the Corrosion Resistance of Phosphate Coatings Deposited on the Surface of the Carbon Steel Used for Carabiners Manufacturing (Applied Sciences, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#SEM#phosphate#coating
EIS model: equivalent circuit
Din: Evaluation of the Corrosion Resistance of Phosphate Coatings Deposited on the Surface of the Carbon Steel Used for Carabiners Manufacturing (Applied Sciences, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#EIS#model#equivalent-circuit
R(C(R(QR))) model for porous coating
Din: Evaluation of the Corrosion Resistance of Phosphate Coatings Deposited on the Surface of the Carbon Steel Used for Carabiners Manufacturing (Applied Sciences, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#EIS#porous-coating#model
Two-CPE model (CPE1/CPE2) ? EIS
Din: Evaluation of the Corrosion Resistance of Phosphate Coatings Deposited on the Surface of the Carbon Steel Used for Carabiners Manufacturing (Applied Sciences, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#EIS#CPE#coating
General synthesis scheme for geopolymers
Din: Revealing the Influence of Microparticles on Geopolymers? Synthesis and Porosity (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#process#geopolymer#scheme
SEM: pore types and reinforcement particles
Din: Revealing the Influence of Microparticles on Geopolymers? Synthesis and Porosity (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#SEM#porosity#microstructure
Relative distributions across composition series
Din: Revealing the Influence of Microparticles on Geopolymers? Synthesis and Porosity (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#NMR#distribution#composition
FTIR: glass powder vs. fly ash
Din: Revealing the Influence of Microparticles on Geopolymers? Synthesis and Porosity (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#FTIR#glass#fly-ash
FTIR: geopolymer samples (various recipes)
Din: Revealing the Influence of Microparticles on Geopolymers? Synthesis and Porosity (Materials, 2020).
DOI.
© Autori, MDPI, CC BY 4.0.
#FTIR#geopolymers
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