Dontopedia

Percolation Threshold

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Percolation Threshold has 11 facts recorded in Dontopedia across 1 reference, with 1 live disagreement.

11 facts·7 predicates·1 sources·1 in dispute

Mostly:tp:verdict reason(4), rdf:type(1), applies to transport type(1)

Maturity scale raw canonical shape-checked rule-derived certified

Other facts (10)

The long tail: predicates that appear too rarely to warrant their own section. Filter or scroll to find a specific one. Each row links to its source.

10 facts
PredicateValueRef
Tp:verdict ReasonThe percolation threshold unit is explicitly reported as vol%.[1]
Tp:verdict ReasonThe source describes the percolation threshold as being for thermal transport.[1]
Tp:verdict ReasonThe source text reports the thermal percolation threshold as 1.8 vol%.[1]
Tp:verdict ReasonThe experimental threshold 1.8 vol% lies inside the stated Monte Carlo prediction interval [1.5, 1.9] vol%.[1]
Rdf:typePhysical Property[1]
Applies to Transport TypeThermal Transport[1]
Has Identified Value1.8[1]
Has Unitvol%[1]
Consistent WithMonte Carlo Simulation[1]
Tp:simulation Verdictreproduced[1]

Timeline

Timeline axis is valid_time — when each source says the fact was true in the world, not when Dontopedia learned about it. Retracted rows are kept for provenance; coloured stripes indicate the context kind.

typetp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
ex:PhysicalProperty
labeltp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
Percolation Threshold
appliesToTransportTypetp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
ex:thermal-transport
hasIdentifiedValuetp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
1.8
hasUnittp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
vol%
consistentWithtp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
ex:monte-carlo-simulation
simulationVerdicttp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
reproduced
verdictReasontp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
The percolation threshold unit is explicitly reported as vol%.
verdictReasontp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
The source describes the percolation threshold as being for thermal transport.
verdictReasontp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
The source text reports the thermal percolation threshold as 1.8 vol%.
verdictReasontp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
The experimental threshold 1.8 vol% lies inside the stated Monte Carlo prediction interval [1.5, 1.9] vol%.

References (1)

1 references
  1. tp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c:claims
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      rmal conductivity of 274 ± 8 W/ (m·K) at 2.0 vol% loading, a 27% enhancement over the unreinforced matrix. 2. MD simulations accurately predict the interfacial thermal conductance (85 vs. 82 MW/(m²·K) for experimental), demonstrating that
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      Methods Few-layer graphene nanoplatelets (FLG, average thickness 2-5 nm, lateral size 5-15 ;ÆÒ’ ere procured from XG Sciences (Grade M-5). Aluminum powder (99.7% purity, D50 = 35 ;ÆÒ’ as obtained from Alfa Aesar. Graphene-aluminum mixtures
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      Thermal Conductivity Enhancement in Graphene-Reinforced Aluminum Matrix Composites: A Combined Experimental and Molecular Dynamics Study Wei Zhang¹, Maria Rodriguez-Lopez², Kenji Tanaka¹, Sarah O'Brien² ¹Department of Materials Science an
    • full textThermal Conductivity Enhancement in Graphene-Reinforced Aluminum Matrix Composites: A Combined Experimental and Molecular Dynamics Study
      application/pdf7 KBtp:paper:f1971dfa-b8e3-45e3-8027-cdb872099b9c
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      Thermal Conductivity Enhancement in Graphene-Reinforced Aluminum Matrix Composites: A Combined Experimental and Molecular Dynamics Study Wei Zhang¹, Maria Rodriguez-Lopez², Kenji Tanaka¹, Sarah O'Brien² ¹Department of Materials Science

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