Organopalygorskite and Molybdenum Sulfide Combinations to Produce Mechanical and Processing Enhanced Flame‐Retardant PE/EVA Blend Composites with Low Magnesium Hydroxide Loading

Sánchez-Valdés, S.; Ramı́rez-Vargas, E.; Rodríguez-González, J. Alberto; Uribe-Calderón, Jorge; de‐Valle, Luis Francisco Ramos; Zuluaga‐Parra, José David; Martínez‐Colunga, Juan Guillermo; Solís-Rosales, Silvia G.; Sánchez‐Martínez, Anhely Carolina; Flores‐Flores, Rodolfo; Saldivar-Guerrero, R.

doi:10.1002/vnl.21758

Cited by 16 publications

(10 citation statements)

References 43 publications

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“…This PP/PP‐gAPP/Ch/KF shows a similar degradation temperature to the reference samples with 30 and 50 wt% of MH. This indicates that the combination of Ch with KF using PP‐gAPP as compatibilizer could have similar degradation behavior than reference samples with higher MH loadings 36–40 …”

Section: Resultsmentioning

confidence: 85%

Influence of ammonium polyphosphate‐modified polypropylene on flammability characteristics of polypropylene keratin and chitosan sustainable composites

Albite‐Ortega¹,

Sanchez²,

Vargas³

et al. 2022

Fire and Materials

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The combination of keratin fibers (KF), obtained from poultry feathers, with chitosan (Ch) are employed in polypropylene (PP) composites to enhance the flame-retardant (FR) properties. The combined effect of each additive and the use of functionalized PP with ammonium polyphosphate (PP-gAPP) as a compatibilizer, compared with PP-gMA, on composite FR properties was analyzed. This compatibilizer was prepared by melt reaction of maleic anhydride grafted PP (PP-gMA) with ammonium polyphosphate (APP). The grafting of APP was characterized by FTIR, XRD, and NMR. PP/KF/Ch composites using PP-gAPP as compatibilizer were characterized by TGA, mechanical properties, and fire-retardant tests such as UL-94 (HB), limiting oxygen index (LOI), and cone calorimeter evaluations. These tests demonstrated the enhancement in fire-retardant characteristics obtained by using PP-gAPP as a compatibilizer agent compared with PP-gMA. The combination of the additives (KF and Ch) with PP-gAPP as compatibilizer in PP, increases the modulus and tensile strength and significantly improves the LOI and reduces the peak heat release rate during cone calorimetry tests with better thermal stability and a noticeable reduction in horizontal burning rate. Most important, the results indicated that the combination of these additives produce similar flame retardancy than a reference sample with high magnesium hydroxide loading. These composites are a promising way to meet the growing demand for high-performance materials with FR characteristics using bio-fire retardant additives such as KF and Ch, in sustainable and environmentally friendly composites.

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Section: Resultsmentioning

confidence: 85%

Influence of ammonium polyphosphate‐modified polypropylene on flammability characteristics of polypropylene keratin and chitosan sustainable composites

Albite‐Ortega¹,

Sanchez²,

Vargas³

et al. 2022

Fire and Materials

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“…The effect of the incorporation of flame-retardant additives on the mechanical properties of composites is a key in application of the resulting composite. [30][31][32] Indeed, obtaining a material with excellent flame retardant properties present no interest if its mechanical properties are inadequate. Several parameters such as particles size and shape, dispersion and distribution of additives throughout the polymer matrix and its affinity to the continuous phase need to be controlled to avoid any dramatic fall in the mechanical performances of the final composite material.…”

Section: Mechanical Properties Of Compositesmentioning

confidence: 99%

Calcium carbonate and ammonium polyphosphate flame retardant additives formulated to protect ethylene vinyl acetate copolymer against fire: Hydrated or carbonated calcium?

Laoutid

Vahabi

Movahedifar

et al. 2020

Vinyl Additive Technology

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In this study, the effect of the chemical nature of different calcium (Ca)‐based minerals as flame retardant additives in combination with ammonium polyphosphate (APP), in 1:1 proportions, on the flame retardancy behavior and performance of ethylene vinyl acetate copolymer was discussed. Combining APP with partly and completely hydrated calcium oxide led to superior flame‐retardant function detected in mass loss calorimeter measurements with respect to the corresponding system containing carbonated calcium. This privileged character was attributed to the higher reactivity of hydrated Ca‐based fillers toward APP in comparison with Ca carbonate, which induced the formation of an intumescent residue. The difference between reactivity potential of hydrated and dry Ca was demonstrated by the newly formed thermally stable species, and further evidenced by thermogravimetric analysis performed on APP/fillers blends. Moreover, the presence of more crystalline domains in the Ca/phosphorus‐based compounds was evidenced by XRD analysis of the mass loss calorimeter test residues. The results of this work highlight the role of blend additive systems on the performance of flame retardancy of polymer materials.

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“…It is also noteworthy that inorganic MH particles are poorly compatible with organic polymers and less likely to be wetted by polymers due to their differences in polarity 14 . Therefore, it is difficult to disperse inorganic MH particles in the polymer matrix, especially in the highly filled polymers, and difficulties arise in the flow of macromolecular chains because particles are more intimately contacted and aggregates are formed 15,16 . The friction of particles increases energy dissipation during processing, which will increase the melt viscosity and reduce the flow properties 6 .…”

Section: Introductionmentioning

confidence: 99%

“…The friction of particles increases energy dissipation during processing, which will increase the melt viscosity and reduce the flow properties 6 . A high content of fillers can also reduce the mechanical properties and thus limit its applications 1,16–18 …”

Section: Introductionmentioning

confidence: 99%

Effect of the melt flow index of compatibilizer on the melt processing and properties of highly filled magnesium hydroxide/linear low density polyethylene composites

Sun

Dang

et al. 2023

J of Applied Polymer Sci

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The application of highly filled composites is limited by their poor processing and rheological properties due to the high loading of fillers. One possible solution to this problem is to use maleic anhydride grafted polypropylene (MAPP) with high melt index as compatibilizer and lubricant. Herein, magnesium hydroxide (MH)/linear low‐density polyethylene (LLDPE) composites with 60 wt% of MH were prepared using MAPP with three different melt flow indexes (MFI). The equilibrium torque and melt flow index tests show that the addition of MAPP with high MFI significantly improves the processability and flowability of MH/MAPP/LLDPE composites. The rheological studies show that it also leads to a substantial reduction in the viscosity and therefore MH/MAPP/LLDPE composites exhibit more solid‐like responses. The scanning electron microscopy shows that a transition layer is formed at the MH‐LLDPE interface. The flame retardancy test shows that the addition of MAPP slightly reduces the flame retardancy of the composites as evidenced by the reduced limiting oxygen index and increased total heat release. Cone calorimeter test shows that the simultaneous addition of MH and MAPP has a synergistic smoke suppression effect.

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Organopalygorskite and Molybdenum Sulfide Combinations to Produce Mechanical and Processing Enhanced Flame‐Retardant PE/EVA Blend Composites with Low Magnesium Hydroxide Loading

Cited by 16 publications

References 43 publications

Influence of ammonium polyphosphate‐modified polypropylene on flammability characteristics of polypropylene keratin and chitosan sustainable composites

Influence of ammonium polyphosphate‐modified polypropylene on flammability characteristics of polypropylene keratin and chitosan sustainable composites

Calcium carbonate and ammonium polyphosphate flame retardant additives formulated to protect ethylene vinyl acetate copolymer against fire: Hydrated or carbonated calcium?

Effect of the melt flow index of compatibilizer on the melt processing and properties of highly filled magnesium hydroxide/linear low density polyethylene composites

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