Needs reviewLiterature-derived experiment

Yield stress and plastic viscosity of SLSP under varying Ca(OH)2 content

rheological testing linked to 3D printing of lunar soil polymers, with source literature and related extracted records kept visible.

100%

Confidence

Literature sources

Linked simulants

Linked properties

Record profile

Measurement type

rheological testing

Application

3D printing of lunar soil polymers

Primary source

Experimental study on rheological properties and 3D printing of simulated lunar soil polymers

Review state

needs review

Linked simulants

JSC-1Asubject_of_studyNeeds review TJ-1Simulant mentioned in extracted literature tagsNeeds review TBG-1simulated lunar soilNeeds review BH-2Simulant mentioned in extracted literature tagsNeeds review

Related properties

Compressive strengthmeasured by compression testing100%Na2O contentsimilar100%Hosting Platforms3-eu-west-1.amazonaws.com90%Document Identifiers2.0-S235271022500493090%Major element contentSiO₂, TiO₂, Al₂O₃, FeO, MnO, MgO, Na₂O, K₂O, P₂O₃95%

Evidence snippets

From Fig. 6 (a) and Tables 3 and it is clear that the yield stress of the slurry increases from 2.363 Pa to 3.531 Pa as the Ca(OH)2 content rises from 0 % to 8 %