Facile Construction of Polypyrrole Microencapsulated Melamine-Coated Ammonium Polyphosphate to Simultaneously Reduce Flammability and Smoke Release of Epoxy Resin

Self Cite

Enhancing the fire safety of epoxy resin (EP) concomitant with less mechanical performance degradation is still a challenge for traditional flame retardants. Hence, polypyrrole (PPy) was used as a film material to fabricate microencapsulated urea ammonium polyphosphate (UAPP) for simultaneously improving the fire safety, thermal stability and compatibility of epoxy composites. The obtained polypyrrole-coated urea ammonium polyphosphate (PPy-UAPP) at a load of 10 wt% endows the EP with a UL94 V-0 rating and a limiting oxygen index (LOI) value of 32.3%, while 10 wt% ammonium polyphosphate (APP) only endows EP with a LOI of 28.5%. Furthermore, the peak heat release rate (PHRR) and peak smoke production rate (PSPR) of EP containing 10 wt% PPy-UAPP are decreased by 12.3% and 21.4% compared to EP containing 10 wt% APP. The decreased fire hazard of EP/PPy-UAPP is attributed to the reduction of hazardous gases including CO 2 and CO and the generation of more incombustible gases including H 2 O and NH 3 to reduce the combustion intensity. Meanwhile, the good compatibility between EP matrix and PPy-UAPP endows the resulting EP composites with a superior balance between fire safety and mechanical properties.

Section: Resultsmentioning

confidence: 96%

Section: Char-forming Behavior Analysismentioning

confidence: 96%

A facile strategy to construct multifunctional microencapsulated urea ammonium polyphosphate for epoxy resins towards satisfied fire safety, thermal stability and compatibility

Long

Yan

et al. 2023

Self Cite

“…This result reflects the poor compatibility of APP with EP. 71 However, when DPM-H was used, the mechanical properties of the prepared flame-retardant EPs (EPDA-1 to EPDA-4) were promoted clearly. When the content of DPM-H increased from 0% in EPDA-0 to 1.0% in EPDA-2, the tensile strength and impact strength increased from the 37.8 MPa and 4.6 kJ m À2 of EPDA-0 to the 60.0 MPa and 11.7 kJ m À2 of EPDA-2.…”

Section: Mechanical Properties Of Flameretardant Epsmentioning

confidence: 99%

Preparation of DOPO‐derived magnesium phosphate whisker and its synergistic effect with ammonium polyphosphate on the flame retardancy and mechanical property of epoxy resin

Wang

Chen

et al. 2022

In this study, a magnesium phosphate whisker (DPM-H) was synthesized by the acid-base neutralization reaction between magnesium hydroxide and 10-hydroxy-9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO-OH) at 120 C. A new synergistic intumescent flame retardant (IFR) for epoxy resin (EP), which was composed of DPM-H and ammonium polyphosphate (APP) was thoroughly studied. When the IFR loading was 8%, with the DPM-H to APP weight ratio at 1:7, the prepared flame-retardant EP (EPDA-2) passed the vertical burning tests (UL-94) V-0 rating and obtained the limiting oxygen index (LOI) value of 29.3%. Microscale combustion calorimetry (MCC) results showed that the total heat release (THR) of EPDA-2 reduced by 32.1% compared with pure EP. Meanwhile, the addition of DPM-H can partially solve the problem of the decrease of the EP mechanical property caused by the addition of APP. Compared with the flame-retardant EP with the 8% loading of APP, the impact strength of EPDA-2 increased 152.3%.

“…It can be seen that TPU-PBEM 0 and TPU-PBEM 30 show the same absorption peak at 1636 cm À1 for the C C group of benzene ring. 38 In the spectrum of TPU-PBEM 0 , the absorption peaks appearing at 1200 cm À1 and 1089 cm À1 are caused by the C H bond 39 and the P O C group 40 of the aromatic compound, respectively. As for TPU-PBEM 30 , the peaks at 1261 cm À1 , 798 cm À1 , 1183 cm À1 and 1020 cm À1 were attributed to P─O 41 and Si─O 42 bonds, respectively.…”

Section: Study On the Char Residuementioning

confidence: 99%

Achieving superior fire safety for TPU 3D‐printed workpiece with EP/PBz/PDMS coating

Qian

Hu³

et al. 2023

To reduce the possibility of the TPU 3D-printed workpiece causing a fire, a flame-retardant coating containing phosphorus, nitrogen, silicon, and benzene rings was fabricated on the TPU workpiece surface. When the MSDS content in the coating is 30 phr, the coated TPU composites LOL reached 29.5%, achieved V-0 rating at the UL-94 test and its peak heat release rate was reduced by 71.3% in the cone calorimeter test. When the MSDS content was increased to 20 phr, a continuous char layer was observed. Moreover, the EP/PBz/PDMS coating improved the thermal stability and tensile strength of TPU 3D-printed workpiece. When the coating burns, it forms a dense charcoal layer, which isolates oxygen. The substrate wrapped by the charcoal layer undergoes a carbonization reaction when heated, preventing the substrate from burning further, resulting in improved flame retardancy, smoke suppression and dripping resistance of TPU.