Wear Behavior of Additively Manufactured 316L/SiCp Composites with 20-80 wt% SiCp
by SANCHEZ DE ROJAS CANDELA, CARMEN / e-cienciaDatos Harvested Dataverse·Updated 7mo ago
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Description
SANCHEZ DE ROJAS CANDELA, CARMEN studied the wear behavior of DED additively manufactured 316L/SiC composites reinforced with 20-80 wt.% of SiC ceramic particles, comparing them with 316L stainless steel. The dataset likely contains measurements of microstructure, microhardness, friction coefficient, mass loss, and wear rate, with correlations between these properties. The data was harvested to e-cienciaDatos and last updated on 2025-11-09.
Use Cases
Modeling wear rate based on SiC particle weight percentage and microhardness data mentioned in the description.
Correlating friction coefficient with microstructural features described in the study.
Comparing the mass loss and wear performance of composite materials against a 316L stainless steel baseline.
Analyzing the relationship between ceramic reinforcement content (20-80 wt%) and material properties.
Strengths
Focuses on a specific material system (316L/SiCp) with a defined reinforcement range of 20-80 wt% SiC.
Includes multiple correlated properties: microstructure, microhardness, friction coefficient, and wear metrics.
Limitations
Column-level documentation is absent; field semantics must be inferred after download.
Row count is unknown, which may limit suitability assessment.
Description metadata is limited; actual data quality requires manual inspection after download.
Provenance
Source
SANCHEZ DE ROJAS CANDELA, CARMEN via e-cienciaDatos Harvested Dataverse
Collection Method
Experimental study of additively manufactured samples.
Time Range
null
Freshness
Last updated 2025-11-09 05:10:08; freshness should be verified.
Geography
null
License is unknown; terms of use must be verified before application.