Mechanical Wave Transmission Measurements in Compressed AlSi10Mg Powder for a Feasibility
by Teigenes, Oddne Kristoffer / DataverseNO Harvested Dataverse·Updated 6d ago
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Description
Averaged ultrasonic transmission measurements support the master's thesis "Feasibility Study of a Novel Volumetric Metal 3D-Printer" by Oddne Kristoffer Teigenes at NTNU, dated 2026. The dataset contains measurements through compressed AlSi10Mg aluminum powder under vacuum and mechanical preload, baseline waveguide-to-waveguide data, impedance data, and derived results. It includes Python code used for acquisition and analysis to estimate wave speed and attenuation for an early feasibility test.
Use Cases
Estimate wave speed and attenuation in metal powder based on ultrasonic transmission measurements.
Benchmark baseline signal performance using waveguide-to-waveguide measurements.
Analyze material impedance characteristics under vacuum and mechanical preload conditions.
Validate acquisition and analysis methods using the provided Python code.
Strengths
Dataset supports a master's thesis from NTNU, indicating academic rigor.
Includes derived results and the original Python code for acquisition and analysis, enabling reproducibility.
Limitations
Column-level documentation is absent; field semantics must be inferred after download.
Row count is unknown, which may limit suitability assessment.
Provenance
Source
Oddne Kristoffer Teigenes, NTNU
Collection Method
Ultrasonic transmission measurements through compressed AlSi10Mg aluminum powder.
Freshness
Last updated 2026-06-07 10:10:09; freshness should be verified.
License is unknown; terms of use must be verified.