Fireproof
Phosphorylated Kraft Lignin/Polyester Based Composites: Green
Material for Rocket propellant Thermal Protection Systems
Jelena Rusmirović
Vesna Lukić
Tihomir Kovačević
Marica Bogosavljević
Saša Brzić
Aleksandar Marinković
Tatjana Stevanović
Presented study was aimed to investigate the influence of surface
functionalization of the industrial kraft lignin (KL) on mechanical
and thermal properties of high-performance and fireproof composites
based on unsaturated polyester (UPe) resin. In order to improve
flame retardant properties, surface of the KL was modified by
phosphorylation method in two-step process. First, direct grafting
of phosphorus chloride on KL phenolic hydroxyl groups was performed
and phosphoric acid ester of KL was formed. In the second step,
phosphor ester of KL was recovered by precipitation in cooled
isopropyl alcohol and the final obtained product, phosphorylated
industrial kraft lignin with methyl terminal groups (KLP) was
obtained. KLP mass contents in UPe based composites varied from 0.5
wt.% to 5.0 wt.%. Structural characterization was done via Fourier
Transform-Infrared Spectroscopy (FT-IR). The effects of KLP surface
functionalization and KLP mass contents on the UPe tensile
properties were studied. Tensile strength (σ), elongation (ε) and
Young’s modulus of elasticity (E) and Shore A (Sh A) hardness of the
UPe/KLP composites were analyzed in relation to the structure of KLP
modification. Tensile testing results showed an increase in σ of 31
% for UPe/KL sample with 1.0 wt.% KL particles compared to the bare
UPe matrix. The origin and cause of fracture that occurred during
uniaxial tensile testing were analyzed using stereo microscopy. The
obtained composites were tested on fire retardant properties in
accordance with the standard test method UL-94V, and composites with
5.0 wt.% loaded KLP achieved V-1 category
Key words: lignin modification, fireproof lignin composites,
tensile testing, flame retardancy.
