Using mixture design approach for modeling and optimizing tribology properties of PPESK composites

Bao, Qingguang; Li, Nan; Feng, Jingyao; Yan, Shebin; Ma, Gaozhang; Wang, Bing; Cheng, Shan; Hao, Haoyue; Liu, Cheng; Zhang, Shouhai; Chen, Yousi; Jian, Xigao

doi:10.1016/j.compositesa.2022.107256

Cited by 12 publications

(4 citation statements)

References 29 publications

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“…The average value of flexural strength of 3‐HGB/CF/PPESK (1240.33 MPa) is only 5.53% higher than CF/PPESK (1175.33 MPa). The analysis suggests that while the rigid HGB filler can effectively slow down crack propagation, it has little impact on the material's toughness as it limits the plastic deformation of the matrix 50 …”

Section: Resultsmentioning

confidence: 99%

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Thermal insulation and mechanical properties of carbon fiber‐reinforced thermoplastic polyphthalazine ether sulfone ketone composites reinforced by hollow glass beads

Feng,

Li,

Wang

et al. 2023

Polymer Composites

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In the high‐tech field, there is an urgent need for materials that possess thermal insulation, mechanical properties, and processing properties. One promising option is Carbon fiber reinforced thermoplastic composites (CFRTPs), which exhibit excellent characteristics such as light weight, high strength, and high temperature resistance. The effects and mechanisms of hollow glass beads (HGB) on the thermal insulation and mechanical properties of carbon fiber‐reinforced thermoplastic polyphthalazine ether sulfone ketone composites (CF/PPESK) were investigated. The introduction of 15 wt% HGB improved the material's thermal insulation performance by 32.74% perpendicular to the fiber direction and 44.95% parallel to the fiber direction. Furthermore, the addition of 3 wt% HGB increased the interlaminar shear strength, compression strength, and flexural strength by 21.34%, 17.49%, and 5.53%, respectively. Additionally, the dynamic mechanical analysis confirmed that the HGB/CF/PPESK composite has superior high‐temperature mechanical properties, which holds great promise for CFRTPs applications.Highlights Modification of CF/PPESK with HGB improved its thermal insulation properties. Analysis of the mechanism of CF/PPESK for thermal insulation performance. HGB improved the mechanical properties by delaying the expansion of microcracks. Agglomeration of HGB leads to a rapid rise in thermal insulation properties.

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Section: Resultsmentioning

confidence: 99%

“…The analysis suggests that while the rigid HGB filler can effectively slow down crack propagation, it has little impact on the material's toughness as it limits the plastic deformation of the matrix. 50…”

Section: Flexural Propertiesmentioning

confidence: 99%

Thermal insulation and mechanical properties of carbon fiber‐reinforced thermoplastic polyphthalazine ether sulfone ketone composites reinforced by hollow glass beads

Feng,

Li,

Wang

et al. 2023

Polymer Composites

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“…Among thermoplastic resins, poly(phthalazinone ether) resins stood out as a promising material for low-temperature engineering. [28][29][30][31][32][33] It exhibited excellent flame retardancy and thermal stability, with a limiting oxygen index of 35-42 and a 5% thermal decomposition temperature above 500 C in air. This material fulfilled the dual requirements of toughness and thermal oxidation resistance necessary for liquid oxygen storage tanks, making it a potential lightweight matrix material for such tanks.…”

Section: Introductionmentioning

confidence: 99%

“…Compared with thermosetting resins, which had shortcomings such as high brittleness and poor toughness in low temperatures, thermoplastic resins had excellent toughness since they could absorb external energy through the movement of side groups, chain segments, and other kinematic units in low‐temperature environments. Among thermoplastic resins, poly(phthalazinone ether) resins stood out as a promising material for low‐temperature engineering 28–33 . It exhibited excellent flame retardancy and thermal stability, with a limiting oxygen index of 35–42 and a 5% thermal decomposition temperature above 500°C in air.…”

Section: Introductionmentioning

confidence: 99%

Study on liquid oxygen compatibility of poly(phthalazinone ether) resins and their composites

Wang,

Li,

et al. 2024

Polymer Composites

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Nine poly(phthalazinone ether ketone) resins were designed and synthesized using three bisphenol and four halogenated monomers. Poly(phthalazinone bisphenol ether ketone) (PPBEK) and poly(phthalazinone ether sulfone ketone) (PPBESK) demonstrated liquid oxygen compatibility (LOC), with PPBEK maintaining its LOC even after 20 days of immersion in liquid oxygen. The liquid oxygen compatibility mechanism of the polymers in the presence of force‐thermal‐chemical multi‐energy fields was analyzed using techniques such as thermal analysis‐infrared‐gas chromatography (TGA‐IR‐GC), thermogravimetric analysis (TGA), and x‐ray photoelectron spectroscopy (XPS). Carbon fiber (CF) reinforced composites were fabricated using PPBEK and PPBESK as matrices, with CF‐PPBEK composites successfully achieving LOC. The microcracking resistance and mechanical properties of the composites were investigated in liquid oxygen at 90 K. The interaction mechanism between the composites and liquid oxygen was elucidated, providing theoretical guidance and an experimental foundation for the application of resin matrix composites in liquid oxygen storage tanks.Highlights Poly(phthalazinone ether) resins were meticulously designed and synthesized. ·PPBEK and PPBESK exhibited excellent liquid oxygen compatibility. Composites exhibited excellent liquid oxygen compatibility. Composites exhibited excellent low‐temperature performance and heat resistance.

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High- and low-temperature resistant and intrinsically flame retardant poly(bisphthalazinone thioether sulfone ketone)s: Synthesis, structures and properties

Zhang

Liu

et al. 2023

Chemical Engineering Journal

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Using mixture design approach for modeling and optimizing tribology properties of PPESK composites

Cited by 12 publications

References 29 publications

Thermal insulation and mechanical properties of carbon fiber‐reinforced thermoplastic polyphthalazine ether sulfone ketone composites reinforced by hollow glass beads

Thermal insulation and mechanical properties of carbon fiber‐reinforced thermoplastic polyphthalazine ether sulfone ketone composites reinforced by hollow glass beads

Study on liquid oxygen compatibility of poly(phthalazinone ether) resins and their composites

High- and low-temperature resistant and intrinsically flame retardant poly(bisphthalazinone thioether sulfone ketone)s: Synthesis, structures and properties

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