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Journal of Materials Science

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01-06-2018 | Mechanochemical Synthesis

Thermal and mechanical properties of fluorinated ethylene propylene and polyphenylene sulfide-based composites obtained by high-energy ball milling

Authors: V. V. Tcherdyntsev, L. K. Olifirov, S. D. Kaloshkin, M. Yu. Zadorozhnyy, V. D. Danilov

Published in: Journal of Materials Science | Issue 19/2018

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Abstract

Solid-state formation method of polyimide (PI) blends based on polyphenylene sulfide (PPS) and fluorinated ethylene propylene (FEP) was elaborated. Recycled thermoset PI powder was used as reinforcements. FEP/PI and PPS/PI blends were obtained by high-energy ball mill without using compatibilizer. PI content in blends was of 25, 50 or 75 wt%. Bulk samples were obtained by sintering at 330 °C during 25 min, with consequent disposition of sample into hot mold between two cold plates and loading the pressure of 20–35 MPa for 10 min. Morphology structure and thermal properties of powder blends were studied by tapped density measurements, DSC and XRD analyses. Thermal and mechanical properties of bulk samples were studied by DMA, hardness measurements and compressive tests. Strong chemical interaction between FEP matrix and PI filler was observed, whereas in case of PPS/PI samples nearly no interaction between components was found. Mechanical tests show that optimum filling degree for PPS/PI system is of 25 wt% PI, whereas in FEP/PI system it is of about 50 wt%.

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Nadkarni VM (1983) Polymer alloys: science and practice. Proc Indian Acad Sci (Chem Sci) 92:623–637

Robeson Lloyd (2014) Historical perspective of advances in the science and technology of polymer blends. Polymers 6:1251–1265CrossRef

Cavalieri F, Padella F (2002) Development of composite materials by mechanochemical treatment of post-consumer plastic waste. Waste Manag 22:913–916CrossRef

Tagaya M, Motozuka S, Kobayashi T, Ikoma T, Tanaka J (2012) Efficient incorporation of monomeric anthracene into nanoporous silica/surfactant nanocomposite spheres using a mechanochemical solid state reaction. J Mater Chem 22:18741–18743CrossRef

Delogu F, Gorrasi G, Sorrentino A (2017) Fabrication of polymer nanocomposites via ball milling: present status and future perspectives. Prog Mater Sci 86:75–126CrossRef

Gorrasi G, Sorrentino A (2015) Mechanical milling as a technology to produce structural and functional bio-nanocomposites. Green Chem 17:2610–2625CrossRef

Roumeli E, Paraskevopoulos KM, Bikiaris D, Chrissafis K (2013) Effect of high energy ball milling on the structure and mechanical properties of cross-linked high density polyethylene. J Mater Sci 48:6753–6761. https://doi.org/10.1007/s10853-013-7480-9 CrossRef

Bonadies I, Avella M, Avolio R, Carfagna C, Gentile G, Immirzi B, Errico ME (2012) Probing the effect of high energy ball milling on PVC through a multitechnique approach. Polym Test 31:176–181CrossRef

Budnik OA, Budnik AF, Berladir KV, Rudenko PV, Sviderskiy VA (2015) Influence of mechanical activation of polytetrafluoroethylene matrix of tribotechnical composites on its structural and phase transformations and properties. Funct Mater 22:499–506CrossRef

10.

Motozuka S, Tagaya M, Hotta Y, Morinaga M, Ikoma T (2013) Mechanochemical fabrication of carbon fiber/nylon-6 composites with interfacial bondings. Ind Eng Chem Res 52:2182–2189CrossRef

11.

Rashidi S, Ataie A (2016) Structural and magnetic characteristics of PVA/CoFe2O4 nano-composites prepared via mechanical alloying method. Mater Res Bull 80:321–328CrossRef

12.

Zhang X, Zhou Z, He X, Li J, Lu C (2012) Mechanochemical milling of PP/ground tire rubber blends in solid-state. IPP 27:427–433CrossRef

13.

Cavalieri F, Padella F, Cataldo F (2003) Mechanochemical surface activation of ground tire rubber by solid-state devulcanization and grafting. J Appl Polym Sci 90:1631–1638CrossRef

14.

Silva LV, Angrizani CC, Souza JR, Amico SC, Medeiros JTN (2012) Use of polyester/glass-fiber residues as fillers for composites. J Appl Polym Sci 124:302–310CrossRef

15.

Olmos D, Vela R, Alvarez-Junceda A, González-Benito J (2013) Rubber particles from tires out of use as toughness modifiers of epoxy-based thermosets. J Adhes 89:697–713CrossRef

16.

Li D, Qian G, Liu C, Wang D, Chen C, Zhao X (2015) Thermal, morphology, and mechanical properties of polyphenylene sulfide/polyether sulfone binary blends. J Appl Polym Sci 132:41703

17.

Rahate AS, Nemade KR, Waghuley SA (2013) Polyphenylene sulfide (PPS): state of the art and applications. Rev Chem Eng 29:471–489CrossRef

18.

Qu J, Zhang Y, Tian X, Guo W (2014) Mechanical and tribological properties of ekonol blends as frictional materials of ultrasonic motors. Tribol Lett 56:387–395CrossRef

19.

Teng Hongxiang (2012) Overview of the development of the fluoropolymer industry. Appl Sci 2:496–512CrossRef

20.

Chen B, Wang J, Yan F (2011) Friction and wear behaviors of several polymers sliding against GCr15 and 316 steel under the lubrication of sea water. Tribol Lett 42:17–25CrossRef

21.

Crosby JM, Carreno CA, Talley KL (1982) Melt processible fluoropolymer composites. Polym Compos 3:97–101CrossRef

22.

Liang JZ, Peng W, Wang KJ (2017) Dynamic rheological behavior of polyfluorinated ethylene propylene/polypropylene blend melts. J Thermoplast Compos Mater 30:273–285CrossRef

23.

Deng S, Lin Z, Cao L, Xian J, Liu C (2015) PPS/recycled PEEK/carbon nanotube composites: structure, properties and compatibility. J Appl Polym Sci 132:42497

24.

Satou H, Makino D (1993) Polyimides for electronic applications A2. In: Wong CP (ed) Polymers for electronic and photonic application. Academic Press, San Diego, pp 221–247CrossRef

25.

Zabolotskii S (2013) A review of the global polyimide market. Eurasian Chem Market 1:2–7

26.

Dong Z, Shao H (1990) Method for recovering polyimide film waste. Patent CN1045800 (A)

27.

Liu S, Tang Q (2014) Method of recovering polyimide raw material by hydrolyzing polyimide waste thin film by ammonia water. Patent CN103553906 (A)

28.

Roach DH (2012) Polyimide based purge media and methods relating thereto. Patent US8309223 B2

29.

Kanazawa C (2013) Polyimide powder, polyimide solution, and method for producing polyimide powder. Patent US20130289204 A1

30.

Hidaka S, Ishikawa H, Machida H (2011) Manufacturing method for polyimide molded body. Patent WO2011079159 A1

31.

Kim J-B (1994) Structure modification and sintering behaviors of infusible aromatic polyimide. Polym Korea 18:976–983

32.

Karger-Kocsis J, Mészáros L, Bárány T (2013) Ground tyre rubber (GTR) in thermoplastics, thermosets, and rubbers. J Mater Sci 48:1–38. https://doi.org/10.1007/s10853-012-6564-2 CrossRef

33.

Hu D, Jia Z, Li J, Zhong B, Fu W, Luo Y, Jia D (2017) Characterization of waste printed circuit boards nonmetals and its reutilization as reinforcing filler in unsaturated polyester resin. J Polym Environ 26:1–9

34.

Amico SC, Brostow W, Dutta M, Góral T, Medeiros JTN, Silva LVS, Juliana R (2012) Composites of polyester + glass fiber residues versus composites with mineral fillers. Compos Interfaces 19:511–522CrossRef

35.

Yin S, Tuladhar R, Shi F, Shanks RA, Combe M, Collister T (2015) Mechanical reprocessing of polyolefin waste: a review. Polym Eng Sci 55:2899–2909CrossRef

36.

Yang S, Bai S, Wang Q (2016) Morphology, mechanical and thermal oxidative aging properties of HDPE composites reinforced by nonmetals recycled from waste printed circuit boards. Waste Manag 57:168–175CrossRef

37.

Zhang SL, Xin ZX, Zhang ZX, Kim JK (2009) Characterization of the properties of thermoplastic elastomers containing waste rubber tire powder. Waste Manag 29:1480–1485CrossRef

38.

Chen S, Li J, Jin Y, Xiao J, Khosla T (2018) Fabrication of polyimide-modified UHMWPE composites and enhancement effect on tribological properties. Polym Plast Technol Eng 57:700–707CrossRef

39.

Chen B, Wang J, Yan F (2012) Microstructure of PTFE-based polymer blends and their tribological behaviors under aqueous environment. Tribol Lett 45:387–395CrossRef

40.

Mu L, Zhu J, Fan J, Zhou Z, Shi Y (2016) Self-lubricating polytetrafluoroethylene/polyimide blends reinforced with zinc oxide nanoparticles. J Nanomater 16:373–379

41.

Min C, Liu D, Shen C, Zhang Q, Shen X, Zhang K (2017) Remarkable improvement of the wear resistance of poly(vinylidene difluoride) by incorporating polyimide powder and carbon nanofibers. Appl Phys A 123:638CrossRef

42.

Wu X, Wei H, Zhu J, Fang X (2010) Study on thermal properties and crystallization behavior of blends of poly(phenylene sulfide)/poly(ether imide). Polym Plast Technol Eng 49:1506–1514CrossRef

43.

Zhang R, Huang Y, Min M, Gao Y, Lu A, Lu Z (2008) Nonisothermal crystallization of polyamide 66/poly(phenylene sulfide) blends. J Appl Polym Sci 107:2600–2606CrossRef

44.

Xing J, Ni Q-Q, Deng B, Liu Q (2016) Morphology and properties of polyphenylene sulfide (PPS)/polyvinylidene fluoride (PVDF) polymer alloys by melt blending. Compos Sci Technol 134:184–190CrossRef

45.

Chae B, Kim YH, Jung YM, Han DH, Kim SB, Lee SW (2009) Spectroscopic and thermal degradation studies of polystyrene grafting onto poly(tetrafluoroethylene-co-hexafluoropropylene) films via electron-beam irradiation. Vib Spectrosc 51:72–75CrossRef

46.

Xie S, Zhang Z, Wei W (2007) Synthesis and properties of polyimide-based optical materials. J Korean Phys Soc 51:1536CrossRef

Title: Thermal and mechanical properties of fluorinated ethylene propylene and polyphenylene sulfide-based composites obtained by high-energy ball milling
Authors: V. V. Tcherdyntsev
L. K. Olifirov
S. D. Kaloshkin
M. Yu. Zadorozhnyy
V. D. Danilov
Publication date: 01-06-2018
Publisher: Springer US
Published in: Journal of Materials Science / Issue 19/2018
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-018-2508-9

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