A Study of Tribological Properties of Polyphenylene Sulfide Composities Reinforced with CNT and CNF

Li, Guo; Zhu, Huan Qin; Sun, Yuan

doi:10.4028/www.scientific.net/amm.184-185.872

Cited by 5 publications

(2 citation statements)

References 4 publications

(3 reference statements)

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“…In addition, a nonuniform MWCNT distribution was observed in the ‘PPS + 10% CNT’ sample, which played the key role in the tribological behavior of the composites (PPS; P-o-D; counterpart is a hardened tool steel; R a = 0.06–0.08, 0.09–0.11, and 0.13–0.15 μm; RT; V = 1 m/s; CP = 0.65 MPa; DSF). Guo, L., et al have investigated the effects of both CNTs and CNFs on the tribological performance of PPS-based composites [ 156 ]. No significant change in CoF values was found, depending on the type and content of the fillers.…”

Section: Plane Contactsmentioning

confidence: 99%

High Performance Polymer Composites: A Role of Transfer Films in Ensuring Tribological Properties—A Review

2022

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The purpose of this review is to summarize data on the structure, mechanical and tribological properties, and wear patterns of composites based on high-performance polymers (HPPs) intended for use in friction units. The review includes three key sections, divided according to the tribological contact schemes regardless of the polymer matrix. In the second part, the analysis of composites is carried out in point contacts. The third section is devoted to the results of studies of HPP-based composites in linear ones. The fourth section summarizes information on flat contacts. Particular attention is paid to the formation of transfer films (TFs) in the contacts and their influence on the tribological patterns of the studied rubbing materials. As a conclusion, it is noted that the challenge of experimental methods for analyzing TFs, stated by K. Friedrich, is effectively solved in recent studies by the XPS method, which enables us to accurately determine their composition. Although this determination is completed after the tribological tests, it allows not only a more accurate interpretation of their results considering specific conditions and loading schemes, but also the ability to design HPP-based composites that form required TFs performing their preset functions.

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Section: Plane Contactsmentioning

confidence: 99%

High Performance Polymer Composites: A Role of Transfer Films in Ensuring Tribological Properties—A Review

2022

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“…PPS, a semicrystalline polymer with repeated thiophenyl units, has high thermal oxidation and chemical resistance. It has advantages of good toughness, low density, high abrasion resistance, and high chemical as well as thermal stability comparable to other high‐performance engineering resins, such as polyimide, polyarylester, and polyetheretherketone . Furthermore, PPS, as a high‐performance polymer, has better comprehensive mechanical properties than common or middle range polymers such as polypropylene, polyamide, and UHMWPE according to the cost/performance characteristics …”

Section: Introductionmentioning

confidence: 99%

Overall Investigation of Poly (Phenylene Sulfide) from Synthesis and Process to Applications—A Review

Zuo

Tcharkhtchi

Shirinbayan

et al. 2019

Macro Materials & Eng

105

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Poly (phenylene sulfide) (PPS) is one kind of high‐performance polymer with high thermal stability that can be used widely in different industrial domains. However, according to an investigation of the literature, few reviews have comprehensively focused on the continuous development of PPS applications in the past decade. To meet this demand, this paper provides an overall investigation of PPS polymer and PPS‐based composites from synthesis and process to applications. Briefly, this paper introduces PPS materials according to the following topics. First, the molecular weight distribution and morphology of PPS, as well as their reinforced parts, are introduced. Afterward, the topic is focused on the synthesis, process, and blending of PPS. In the next part, this paper investigates the key points regarding PPS as a high‐performance polymer, focusing on the aspect of thermal behavior and mechanical properties. Finally, PPS composite applications are emphasized and overviewed from a wide range of aspects.

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Interfacial strength and debonding mechanism between aerogel-spun carbon nanotube yarn and polyphenylene sulfide

Shao

et al. 2016

Composites Part A: Applied Science and Manufacturing

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A Study of Tribological Properties of Polyphenylene Sulfide Composities Reinforced with CNT and CNF

Cited by 5 publications

References 4 publications

High Performance Polymer Composites: A Role of Transfer Films in Ensuring Tribological Properties—A Review

High Performance Polymer Composites: A Role of Transfer Films in Ensuring Tribological Properties—A Review

Overall Investigation of Poly (Phenylene Sulfide) from Synthesis and Process to Applications—A Review

Interfacial strength and debonding mechanism between aerogel-spun carbon nanotube yarn and polyphenylene sulfide

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