Constructing micro cross-linking structures into molecular chains has demonstrated the
ability to improve basic properties, such as mechanical strength and thermal stability, of …

Polycaprolactone (PCL) is one of the most recognized polymeric materials used for bone
tissue engineering scaffold fabrication. This study aims to evaluate the effects of the …

PA56 is a newly commercialized bio-based polyamide with excellent thermal, mechanical
and processing properties. However, its hydrogen bonds and crystalline structures are not …

Bio-based polymers can reduce dependence on nonrenewable petrochemical resources
and will be beneficial for future sustainable developments due to their low carbon footprint …

As PA56 cannot have 100% intermolecular hydrogen bonds (HBs) regardless of how the
molecular chains are arranged, the crystallization properties of PA56 are not as good as …

Polyamide 5, 6 (PA56) and polyamide 6 (PA6) fibers were spun by melt spinning process
and drawn by a thermal drawing in order to improve their mechanical properties. The effects …

The isothermal (IT) and non-isothermal (NIT) crystallization kinetics, morphology, and
structure of poly (ethylene chlorotrifluoroethylene)(ECTFE) were investigated via differential …

Abstract Polyamide 56 (PA56) fibers were prepared by one‐step melt spinning and drawing
process. The effects of draw ratio and draw temperature on the structure and properties of …

Herein, we report novel heat-resistant nylon 10T/66/titania dioxide/glass fibre (nylon
10T/66/TiO2/GF) composites based on as-synthesised nylon 10T/66, which is a copolymer …

The mechanical properties of a stem cell culture substrate significantly impact cell adhesion,
survival, migration, proliferation, and differentiation in vitro. A major challenge in engineering …