Cold sintering as a promising in-situ lunar regolith resource utilization approach: Parameter optimization for geopolymer products

G. Xue, G. Qiao | 2025 | Acta Astronautica

DOI 10.1016/j.actaastro.2025.05.011

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Summary

This paper explores cold sintering as an energy-efficient method for lunar regolith-based geopolymer fabrication. It details parameter optimization for geopolymer products, including compressive strength, porosity, and gel content improvements under varying temperature and pressure conditions. The study highlights the potential of cold sintering for in-situ lunar construction. The provided text appears to be a series of URLs or identifiers related to academic articles or publications, likely from the Elsevier database. These identifiers are in the format of 'https://api.elsevier.com/content/object/eid/1-s2.0-S0094576525002930-si...'. The text also includes some numerical and alphanumeric codes, possibly representing publication IDs or other metadata. There is no clear text content or meaningful information beyond these identifiers, suggesting the text may be a list of references or a technical log related to academic publishing systems. The paper discusses the application of cold sintering for the fabrication of ceramic components, focusing on the effects of temperature, pressure, and sintering time on the microstructure and mechanical properties of the final product. The study hig

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Experiments and measurements

Metadata Parsing

Data Processing

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String Parsing, Numerical Analysis85% confidence

Academic Paper Content Mapping

Research

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Map the file names to the paper's content (e.g., figures, tables, supplementary), Identify the journal or conference associated with the paper, Analyze the file types and their relevance to the paper's subject matter85% confidence

Orthogonal Experiment

Experimental Design

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Orthogonal array, Factorial design95% confidence

Thermal Analysis

Thermogravimetric Analysis

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TG curves, Weight loss statistics95% confidence

XRD Analysis

X-ray Diffraction

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XRD patterns95% confidence

Elemental Mapping

Scanning Electron Microscopy

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Elemental mapping95% confidence

Micromorphology Analysis

Scanning Electron Microscopy

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Micromorphology, Composition characteristics95% confidence

Orthogonal experiments (L27 (313))

Mechanical testing | In-situ lunar construction, prefabricated construction, emergency repair scenarios

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Differential scanning calorimetry (DSC), High-temperature concentric cylinder viscometry100% confidence

Measured properties

Technical Log

The text may represent a technical log or metadata record related to an academic publishing system.

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Context85% confidence

File Type

SVG (Scalable Vector Graphics)

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Format95% confidence

Thermal Stability

High

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Thermal95% confidence

Crystalline Structure

XRD patterns

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Structural95% confidence

Elemental Composition

Elemental mapping

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Chemical95% confidence

Micromorphology

Micromorphology and composition characteristics

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Microstructure95% confidence

Compressive strength

42.56 MPa MPa

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Mechanical100% confidence

Porosity

28.62 % %

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Structural100% confidence

Methods and applications

Methods

Cold sinteringGeopolymer synthesisMechanical testingMicrostructural analysisPattern RecognitionIdentifier ExtractionString ParsingNumerical AnalysisThermogravimetric analysis (TGA)Electrical conductivity measurementScanning electron microscopy (SEM)X-ray diffraction (XRD)Thermomechanical analysisIdentify the CDN provider and hosting structureAnalyze the file types and their relevance to the paperMap the file names to the paper's contentDetermine the journal or conference associated with the paperAnalyze the URL structure for content organizationVisual Inspection of SVG FilesDOI ValidationS3 Bucket AnalysisAcademic Contextual AnalysisIdentify the pattern of URLs to determine the structure of the supplementary orAccess the URLs to retrieve the SVG files and analyze their content.Use the URLs to infer the context of the original paper or document.Orthogonal arrayFactorial designThermogravimetric analysisX-ray diffractionScanning electron microscopyElemental mappingMicromorphology analysisFitting analysisStatistical analysisRegression analysisComparison analysisOptimization analysisResponse surface methodologyCurve fittingBenchmarkingOrthogonal experimentMultiple regression analysisDifferential scanning calorimetry (DSC)High-temperature concentric cylinder viscometryRietveld refinementRaman spectroscopyBackscattered electron imaging (BSE)X-ray fluorescence (XRF)Cold sintering process (CSP)Energy-dispersive X-ray spectroscopy (EDS)Image processingThermal propertiesMechanical propertiesrange analysisvariance analysiselemental analysis (EDS)compressive strength testingSEM-EDS microanalysisX-ray computed tomographyBSE-IAThermal properties analysisPorosity and gel yield analysisMechanical properties analysisInterfacial diffusion analysisThermo-mechanical coupling analysisNonlinear compensation analysisParticle rearrangement analysisDissolution-precipitation analysisGel formation analysisLiquid phase viscosity analysisThermogravimetric analysis (TG)Multivariate linear regression analysisPressure-solution creep analysisChemically bound water analysisSintering time analysisTemperature-pressure interaction analysisGel yield analysisPorosity analysisCompressive strength analysisChemical potential analysis

Applications

In-situ lunar constructionStructural materials for lunar habitatsMaterial science for extraterrestrial constructionAcademic ResearchPublication TrackingData ProcessingMetadata AnalysisCeramic components for high-temperature applicationsElectrical insulation materialsStructural ceramics for aerospace applicationsThermal barrier coatingsBiomedical implantsDigital PublishingContent Delivery Network AnalysisTechnical DocumentationSupplementary Material ManagementMaterials ScienceEngineeringScientific VisualizationAcademic research for supplementary materialsData visualization and diagram sharingCloud storage access and retrievalMaterial scienceChemical industryConstruction industryEnvironmental scienceBiotechnologyPharmaceutical industryElectronicsAerospaceAutomotiveEnergyTextile industryFood industryAgricultureMedical devicesBiomedical engineeringNanotechnologyInformation technologyTelecommunicationsComputer scienceArtificial intelligenceMachine learningData scienceBig dataLunar habitat constructionLunar infrastructure developmentIn-situ resource utilization (ISRU) for space exploration