Liquid State Sintering enhances Consolidation in Basalt-rich Lunar Regolith

N. Gupta, V. Dawara, A. Kumar, K. Viswanathan | 2024 | Advances in Space Research

DOI 10.1016/j.asr.2024.05.024

Review state

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Summary

The paper discusses the challenges of constructing habitable environments on extraterrestrial bodies, focusing on the Moon and Mars. It highlights the importance of in-situ resource utilization (ISRU) for sustainable colonization and the development of advanced life-support systems. The study also emphasizes the need for international collaboration and technological innovation to overcome the physical and psychological challenges of long-duration space missions. The provided text appears to be a series of URLs or identifiers related to content hosted on the Elsevier platform, likely associated with academic or scientific publications. These URLs seem to be fragments or incomplete, possibly indicating links to supplementary materials, figures, or other resources. However, the text does not contain any meaningful content or data that can be summarized in a traditional sense. The provided text appears to be a series of URLs pointing to SVG files hosted on the Elsevier API, likely related to scientific content or figures. These URLs are not fully accessible due to truncation or formatting issues. There is no clear content or data extractable from the provided text beyond the URLs. The

Connected extracted records

These are the records this paper contributes to the simulant, returned sample, method, and property browsers.

Used simulants

LHS-1

measured

Needs review

100% confidence

LMS-1

lunar mare dust simulant

Needs review

100% confidence

LSP-2

lunar south pole simulant

Needs review

100% confidence

LHS-1

lunar highland simulant engineered

Needs review

100% confidence

JSC-1A

referenced

Needs review

50% confidence

LHS-2E

used

Needs review

100% confidence

Returned samples

No returned samples extracted yet.

Experiments and measurements

Standardized protocol for regolith sintering

sintering

Needs review

sintering time, temperature profiles, compaction of green part95% confidence

Evaluating mechanical properties of sintered bricks

mechanical testing

Needs review

compressive strength, porosity measurement95% confidence

Lattice model for evaluating porosity-driven failure mechanisms

modeling

Needs review

porosity quantification, shrinkage-induced anisotropy, crack growth patterns95% confidence

Analyze Document Structure

Technical

Needs review

Look for the main document or article that these SVGs are associated with, using70% confidence

Metadata Extraction

Analysis

Needs review

Extract metadata from the digital assets to determine their content, creation, Identify the purpose of `ALTIMG` by analyzing the metadata or associated75% confidence

Content Repository Analysis

Investigation

Needs review

Investigate the structure of the content repository to understand how digital, Analyze the persistent identifier `pii:S0273117724004642` to determine its role80% confidence

Pore Network and Node Layout

simulation

Needs review

Voronoi polygons, lattice network, stress-strain plots70% confidence

Stress-Strain Comparison

simulation

Needs review

stress-strain plots, experimental results, simulations70% confidence

Measured properties

compressive strength

increased with higher peak temperature

Needs review

mechanical93% confidence

porosity

reduced with higher peak temperature

Needs review

microstructural95% confidence

anisotropy in strength

shrinkage-induced

Needs review

mechanical95% confidence

strength-porosity relationship

exponential

Needs review

mechanical95% confidence

Format

SVG (Scalable Vector Graphics)

Needs review

Technical95% confidence

Document ID

S0273117724004642

Needs review

Technical90% confidence

Persistent Identifier (PII)

pii:S0273117724004642

Needs review

Identifier85% confidence

Alternative Image Metadata

ALTIMG

Needs review

Metadata75% confidence

Methods and applications

Methods

In-situ resource utilization (ISRU) for construction and life-support systemsHydroponic and aeroponic techniques for agricultureRobotic excavation and mining technologiesURL AnalysisPattern RecognitionContextual Inferencesinteringmechanical testingmodelingPhysical property analysisChemical composition analysisThermal testingX-ray diffractionScanning electron microscopySpectroscopyMass spectrometryIsotope analysisX-ray fluorescenceImage processingSeismic data interpretationSpectral analysisThermal analysisRadiometric DatingNeutron Activation AnalysisOptical MicroscopyElectron MicroprobeInductively Coupled PlasmaThin Section AnalysisWhole Rock AnalysisThe text is a list of URLs pointing to SVG files hosted on Amazon S3.The URLs are associated with a specific document or article identified by the IDThe SVG files are likely used to display vector graphics inline within a webpageThe text does not contain any narrative or explanatory content.Use the provided URLs to access the digital assets (e.g., images, documents) viaVerify the file types (e.g., `.svg`, `.png`, `.pdf`) to determine the nature ofCheck the persistent identifier `pii:S0273117724004642` to locate the associatedExtract metadata from the digital assets to determine their content, creationInvestigate the structure of the content repository to understand how digitalAnalyze the persistent identifier `pii:S0273117724004642` to determine its rolePhysical testingChemical analysisMicrostructural analysisPattern recognition in URL structureFile extension analysisIdentifier consistency across entriesHosting service identificationFile size and metadata extractionFile Name AnalysisURL ParsingFormat IdentificationContextual Analysisdie-castinghydraulic pressmuffle furnaceVoronoi polygonslattice networkstress-strain plotscompressive strength testinglattice-based modelingmineralogical analysisDifferential Scanning Calorimetry (DSC)Uniaxial CompressionScanning Electron Microscopy (SEM)Compression testingFE-SEM microanalysisMercury intrusion porosimetry (MIP)Lattice modelingCompactionSEM microanalysisliquid state sinteringMicrobially Induced Calcium Carbonate Precipitation (MICP)lattice network modelmicro-CT imagingforce balance analysisuniaxial mechanical loadingparticle size distribution analysisSEM micrograph analysisspark plasma sinteringmicrowave sinteringmicrobial induced calcite precipitation

Applications

Construction of lunar and Martian habitatsAgricultural development on MarsTesting of life-support systems for long-duration space missionsScientific ResearchAcademic PublishingTechnical Documentationin-situ resource utilization on the Moonconstruction of lunar habitatsspace explorationTesting equipment for lunar missionsUnderstanding the Moon's geological historyAnalyzing lunar samples for scientific researchInterpreting data from lunar missionsStudying the chemical composition of the Moon's surfaceLunar Sample AnalysisPlanetary ScienceGeologyMaterials ScienceAstrophysicsWeb development (SVG images used in a webpage or document)Document formatting (SVGs used to represent diagrams, charts, or other graphics)Content delivery (SVGs hosted on Amazon S3 for easy access)Digital asset management systemsAcademic or research publicationsContent repositories for educational or institutional useAccessibility tools for alternative image contentTesting of lunar or planetary exploration equipmentSimulation of extraterrestrial environments for researchTraining for space missionsIdentifying and categorizing SVG files hosted on Amazon S3Analyzing file size and metadata for optimizationMapping identifiers to specific image resourcesUnderstanding URL structure for API or web scraping purposesAcademic ResearchSupplementary Materialsregolith simulant manufacturingsintering processesmaterial simulationporosity analysisgeological researchSpace Brick ProductionLunar Habitat ConstructionMartian Habitat ConstructionLunar regolith processingMaterial scienceMechanical testingThermal analysisMaterial processing