Material property measurements from a study developing a sustainable, non-flammable polyamide 6,6 hybrid composite for automotive applications. The composite achieved a UL-94 V-0 rating with zero horizontal burn rate and incorporated 35% sustainable content. It includes data on tensile modulus (9170 MPa), flexural modulus (9436 MPa), heat deflection temperature (240.4 °C), and thermal expansion (31.47 µm/m·°C).
Use Cases
- Analyze the relationship between tensile modulus and flexural modulus in silane-treated basalt fiber composites.
- Model the impact of lignin-derived biocarbon content on thermal stability metrics like T_max (445 °C) and residue (32.3%).
- Correlate the damping factor and storage modulus with the composite's UL-94 V-0 rating and zero horizontal burn rate.
- Investigate the reduction in thermal expansion (31.47 µm/m·°C) relative to neat PA66 for lightweight automotive component design.
Strengths
- Includes specific, high-precision material property measurements such as tensile modulus of 9170 MPa and flexural modulus of 9436 MPa.
- Reports critical fire safety performance with a UL-94 V-0 rating and zero horizontal burn rate.
- Quantifies sustainable content at 35% and key thermal properties like a heat deflection temperature of 240.4 °C.
Limitations
- Dataset scope is limited to a single, specific composite formulation described in the study.
- The sample size and number of experimental replicates for each measurement are not provided.
- No information on the raw, tabular data structure, columns, or file formats is available.
Provenance
- Source
- Borealis Harvested Dataverse
- Collection Method
- Experimental study developing and testing a polyamide 6,6 hybrid composite with basalt fiber, flame retardant, and lignin biocarbon.
- Time Range
- null
- Freshness
- null
- Geography
- null