Clay in situ resource utilization with Mars global simulant slurries for additive manufacturing and traditional shaping of unfired green bodies

[1]  D. Britt,et al.  Feeding One Million People on Mars , 2019 .

[2]  T. A. Goudge,et al.  Orbital Identification of Hydrated Silica in Jezero Crater, Mars , 2019, Geophysical Research Letters.

[3]  Michael A. Miller,et al.  New simulants for martian regolith: Controlling iron variability , 2019, Planetary and Space Science.

[4]  A. Gurlo,et al.  Towards the colonization of Mars by in-situ resource utilization: Slip cast ceramics from Martian soil simulant , 2018, PloS one.

[5]  P. Schroeder Clays in the Critical Zone , 2018, Elements.

[6]  A. Zocca,et al.  3D printing of porcelain by layerwise slurry deposition , 2018 .

[7]  Trent M. Smith,et al.  Mars global simulant MGS-1: A Rocknest-based open standard for basaltic martian regolith simulants , 2018, Icarus.

[8]  C. Cockell,et al.  Y‐Mars: An Astrobiological Analogue of Martian Mudstone , 2018 .

[9]  A. Gurlo,et al.  Transmission in situ and operando high temperature X-ray powder diffraction in variable gaseous environments. , 2018, The Review of scientific instruments.

[10]  A. Makaya,et al.  A new planetary structure fabrication process using phosphoric acid , 2018 .

[11]  Richard V. Morris,et al.  Mineralogy of an active eolian sediment from the Namib dune, Gale crater, Mars , 2017 .

[12]  Ying Zhong,et al.  Direct Formation of Structural Components Using a Martian Soil Simulant , 2017, Scientific Reports.

[13]  A. Gurlo,et al.  Compact low power infrared tube furnace for in situ X-ray powder diffraction. , 2017, The Review of scientific instruments.

[14]  G. Cusatis,et al.  A novel material for in situ construction on Mars: experiments and numerical simulations , 2015, 1512.05461.

[15]  R. Cygan,et al.  Swelling Properties of Montmorillonite and Beidellite Clay Minerals from Molecular Simulation: Comparison of Temperature, Interlayer Cation, and Charge Location Effects , 2015 .

[16]  N. Thomas,et al.  Desiccation of phyllosilicate-bearing samples as analog for desiccation cracks on Mars: Experimental setup and initial results , 2015 .

[17]  P. Walker,et al.  Use of Metakaolin with stabilised extruded earth masonry units , 2015 .

[18]  H. Lekkerkerker,et al.  Smectite clay--inorganic nanoparticle mixed suspensions: phase behaviour and rheology. , 2015, Soft matter.

[19]  B. Ehlmann,et al.  Mineralogy of the Martian Surface , 2014 .

[20]  J. Duval,et al.  Isotropic/nematic and sol/gel transitions in aqueous suspensions of size selected nontronite NAu 1 , 2013, Clay Minerals.

[21]  R. V. Morris,et al.  X-ray Diffraction Results from Mars Science Laboratory: Mineralogy of Rocknest at Gale Crater , 2013, Science.

[22]  S. Wilson,et al.  Stability of Mg-sulfate minerals in the presence of smectites: Possible mineralogical controls on H2O cycling and biomarker preservation on Mars , 2012 .

[23]  Paul Goldberg,et al.  Early Pottery at 20,000 Years Ago in Xianrendong Cave, China , 2012, Science.

[24]  S. Leroueil,et al.  The Effects of Salinity and Shear History on The Rheological Characteristics of Illite-Rich and Na-Montmorillonite-Rich Clays , 2012, Clays and Clay Minerals.

[25]  John M. Kinuthia,et al.  Stabilised unfired clay bricks for environmental and sustainable use , 2012 .

[26]  Peter Walker,et al.  Modern earth masonry:Structural properties and structural design , 2012 .

[27]  C. Valderrama,et al.  Transport of Strontium Through a Ca-bentonite (Almería, Spain) and Comparison with MX-80 Na-bentonite: Experimental and Modelling , 2011 .

[28]  B. Abu-Jdayil Rheology of sodium and calcium bentonite-water dispersions: Effect of electrolytes and aging time , 2011 .

[29]  S. Sen,et al.  Multifunctional Martian habitat composite material synthesized from in situ resources , 2010 .

[30]  N. Izenberg,et al.  Hydrated silicate minerals on Mars observed by the Mars Reconnaissance Orbiter CRISM instrument , 2008, Nature.

[31]  P. Turq,et al.  Study of individual Na-montmorillonite particles size, morphology, and apparent charge. , 2005, Journal of colloid and interface science.

[32]  Douglas M. Smith,et al.  Agglomeration during the Drying of Fine Silica Powders, Part II: The Role of Particle Solubility , 2005 .

[33]  M. Mayo,et al.  Agglomerate formation during drying , 2003 .

[34]  R. Fischer,et al.  Investigation of the clay fraction (<2 µm) of the clay minerals society reference clays , 2002 .

[35]  Robert F. Conley,et al.  Practical Dispersion: A Guide to Understanding and Formulating Slurries , 1996 .

[36]  A. Banin,et al.  Exchange Reactions in the Ca-Mg-Na-Montmorillonite System , 1996 .

[37]  C. Pieters,et al.  Infrared Spectroscopic Analyses on the Nature of Water in Montmorillonite , 1994 .

[38]  T. Zemb,et al.  Ultrasmall- and small-angle X-ray scattering of smectite clay suspensions , 1994 .

[39]  Richard G. Holdich,et al.  Measurement of slurry solids content by electrical conductivity , 1992 .

[40]  R. Bradt,et al.  Strengths of Green and Fired Spherical Aluminosilicate Aggregates , 1987 .

[41]  H. Stoeckli,et al.  Study of the water-bentonite system by vapour adsorption, immersion calorimetry and X-ray techniques: I. Micropore volumes and internal surface areas, following Dubinin's theory , 1987, Clay Minerals.

[42]  U. Hofmann Intracrystalline Swelling, Cation Exchange, and Anion Exchange of Minerals of the Montmorillonite Group and of Kaolinite , 1955 .

[43]  M. Meyer,et al.  Geopolymers from lunar and Martian soil simulants , 2017 .

[44]  Andrea Zocca,et al.  LSD-based 3D printing of alumina ceramics , 2017 .

[45]  T. Mühler,et al.  Slurry-based powder beds for the selective laser sintering of silicate ceramics , 2015 .

[46]  Valentina Colla,et al.  Building components for an outpost on the Lunar soil by means of a novel 3D printing technology , 2014 .

[47]  Heinz-Wilhelm Hübers,et al.  Optimizing the detection of carotene in cyanobacteria in a martian regolith analogue with a Raman spectrometer for the ExoMars mission , 2012 .

[48]  M. Tadza,et al.  Soil-water characteristic curves and shrinkage behaviour of highly plastic clays: an experimental investigation , 2011 .

[49]  Siv Olsson,et al.  Mineralogy and sealing properties of various bentonites and smectite-rich clay materials , 2007 .

[50]  N. Gũven,et al.  Comparative Rheology of Water-Based Drilling Fluids With Various Clays , 1988 .

[51]  J. R. Taylor,et al.  Ceramics Glaze Technology , 1986 .

[52]  A. Kahn Studies on the Size and Shape of Clay Particles in Aqueous Suspension1 , 1959 .