nach oben

Mechanics of Composite Materials

Erschienen in:

09.07.2018

Dry Wear and Metallographic Study of PTFE Polymer Composites

verfasst von: Y. Şahin

Erschienen in: Mechanics of Composite Materials | Ausgabe 3/2018

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

The dry wear characteristics of polytetrafluoroethylene (PTFE) composites filled with bronze, glass, and carbon fibers were investigated in heavy loading conditions. The scanning electron microscopy was used to determine the mechanisms of their dry wear. An energy dispersive X-ray spectroscopy analysis revealed great differences between the wear surfaces of the composites. The friction forces at a fixed load were found to be lower for the glass- and carbon-filled composites than for the PTFE and bronze-filled ones.

Vorheriger Artikel Investigation of Two- and Three-Body Wear Resistance on Flowable Bulk-Fill and Resin-Based Composites

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

S. S. Prabu, S. Prathiba, A. Sharma, S. Garg, G. Manikandan, and C. Sriram, “Investigation on adhesive wear behaviour of industrial crystalline and semi-crystalline polymers against steel counterface,” Int. J. Chem. Tech. Res., 6, No. 7, 3422-3430 (2014). CODEN (USA): IJCRGG ISSN : 0974-4290

R. K. Goyal and M. Yadav, “Study on wear and friction behavior of graphite flake-filled PTFE composites,” J. Appl. Polym. Sci., 3188-3191 (2013). DOI: https://doi.org/10.1002/APP.37707

J. Khedkar, I. Negulescu, and E. I. Meletis, “Sliding wear behaviour of PTFE composites,” Wear, 252, 361-369 (2002).CrossRef

K. Friedrich, Z. Zhang, and A. K. Schlarb, “Effects of various fillers on the sliding wear of polymer composites,” Compos. Sci. Technol., 65, 2329-2343 (2005).CrossRef

S. E. Franklin, “Wear experiments with selected engineering polymers and polymer composites under dry reciprocating sliding conditions,” Wear, 251, 1591-1598 (2001).CrossRef

H. Unal, U. Sen, and A. Mimaroglu, “Dry sliding wear characteristics of some industrial polymers against steel counter face,” Tribology Int., 37, 727-732 (2004).CrossRef

X. D. Yuan and X. J Yang, “A study on friction and wear properties of PTFE coatings under vacuum conditions,” Wear, 269, 291-296 (2010).CrossRef

G. Kalácska G. “An engineering approach to dry friction behaviour of numerous engineering plastics with respect to the mechanical properties,” eXPRESS Polymer Lett. 7, No. 2, 199-210 (2013).

J. Bijwe and C. M. Logani, and U. S. Tewari, “Influence of fillers and fibre reinforcement on abrasive wear resistance of some polymeric composites,” Wear, 138, 77-92 (1990).CrossRef

10.

S. Bahadur and D. Tabor, “The wear of filled polytetrafluoroethylene,” Wear, 98, 1-13 (1984).CrossRef

11.

K. Tanaka and S. Kawakami, “Effect of various fillers on the friction and wear of polytetrafluoroethylene-based composites,” Wear, 79, 221-234 (1982).CrossRef

12.

K. P. Sampath, S. Seetharamu, A. Murali, and R. K. Kumar, “Dry sliding wear behaviour of glass–epoxy composite,” J. Reinf. Plast. Compos., 18 No. 1, 55-62 (1999).CrossRef

13.

N. Mohan, S. Natarajan, and S. P. Kumares, “Wear behaviour of hard powders filled glass fabric hybrid composites,” Mater. Des., 32, 1704-1709 (2011).CrossRef

14.

D. Ray and R. Gnanamoorthy, “Friction and wear behaviour of vinyl ester resin matrix composites filled with fly ash particles,” J. Reinf. Plast. Compos., 26, No. 1, 5-12 (2007).CrossRef

15.

B. F. Yousif and N. S. M. El-Tayeb, “Mechanical and wear properties of oil palm and glass fibre reinforced polyester composites,” Int. J. Precision Technol., 1, No. 2, 213-220 (2009).CrossRef

16.

B. Suresha, G. Chandramohan, S. Seetharamu, and S. Vynatheya, “Friction and wear characteristics of carbon–epoxy and glass–epoxy woven roving fibre composites,” J. Reinf. Plast. Compos., 25, No. 7, 771-882 (2006).CrossRef

17.

A. P. Harsha and U. S. Tewari, “Tribological studies on glass fibre reinforced polyether ketone composites,” J. Reinf. Plast. Compos., 23, No. 1, 65-82 (2007).CrossRef

18.

J. Tong, R. D. Arnell, and L. Q. Ren, “Dry sliding wear behaviour of bamboo,” Wear, 221, 37-46 (1998).CrossRef

19.

R. Subramanian and P. K. Asaithambi, “Friction and wear of epoxy resin containing graphite,” J. Reinf. Plast. Compos., 5, 200-208 (1986).CrossRef

20.

B. Suresha, P. R. Sadananda Rao, and G. Chandramohan, “Influence of SiC filler on mechanical and tribological behaviour of glass fabric reinforced epoxy composite systems,” J. Reinf. Plast. Compos., 26, No. 6, 565-578 (2007).CrossRef

21.

A. Besnea, D. Trufasu, G. Andrei, and L. Deleanu, “Wear behaviour of polyphenylene sulphide composites during dry sliding tests,” Mech.l Test. Diagn., 2, 15-20 (2012).

22.

H. Unal, A. Mimaroglu, U. Kadıoglu, and H. Ekiz, “Sliding friction and wear behaviour of polytetrafluoroethylene and its composites under dry conditions,” Mater. Des., 25, 239-245 (2004).CrossRef

23.

H. Unal, E. Kurtulus, A. Mimaroglu, and M. Aydin,” Tribological performance of PTFE bronze filled composites under wide range of application conditions,” J. Reinf. Plast. Compos., 29, 2184-2191 (2010).CrossRef

24.

P. V. Kulkarni and N. K. Chapkhhane, “Development and testing of PTFE based composite bearing material for turbine pump,” Int. J. Eng. Adv. Technol., (IJEAT), 1, No. 6, 15-20 (2012).

25.

M. Stanković, A. Venc, A. Marinković, “A review of the tribological properties of PTFE composites filled with glass, graphite, carbon or bronze reinforcement,” SERBIATRIB ’13, 13th Int. Conf. on Tribology, Kragujevac, Serbia, Serbian Tribology Soc., 15- 17 May, 135-139 (2013).

26.

M. B. A. Pasha, D. Abdul Budan, S. Basavarajappa, S. Manjunath Yadav, and B. A. Nizamuddin, “Dry sliding wear behaviour of PTFE filled with glass and bronze particles,” Tribology – Materials, Surfaces & Interfaces, 5, 59-64 (2011).CrossRef

27.

M. T. Demirci and H. Düzcükoğlu, “Wear behaviours of PTFE reinforced PA 66 journal bearings”, UNITECH’10 GABROVA, Int. Sci. Conf., 19-20 November Gabrovo, 249-253 (2010),

28.

S. Basavarajappa, S. Ellangovan, and K. V. Arun, “Studies on dry sliding wear behaviour of graphite filled glass–epoxy composites,” Mater. Des., 30, 2670–2675 (2009).CrossRef

29.

T. Tevruz, “Tribological behaviours of bronze-filled polytetrafluoroethylene dry journal bearings,” Wear, 230, 61-69 (1999).CrossRef

30.

K. Friedrich, K. (ed.), “Advances in Composite Tribology”, R. B. Pipes, ed. Composite Materials Series, Vol. 8., Elsevier: Netherlands, 233-287 (1993).

31.

Y. Şahin and H. Mirzayev, “Wear characterization of polymer based composites,” Mech. Compos. Mater., 51, No. 5, 543-554 (2015).CrossRef

32.

S. R. Chauhan and S. Thakur, “Effects of particle size, particle loading and sliding distance on the friction and wear properties of cenosphere particulate filled vinyl ester composites,” Mater. Des., 51, 398-408 (2013).CrossRef

33.

D. Bagale, S. Shekhawat, and J. Chaudhari, “Wear analysis of polytetrafluoroethylene and it’s composites under dry conditions using Design-Expert”, Int. J. Sci. Research Publ., 3, No. 1, 1-5 (2013).

34.

P. V. Kulkarni and N. K. Chapkhhan, “Development and testing of PTFE based composite bearing material for turbine pump,” Int. J. Eng. Adv. Technol., (IJEAT) ISSN: 2249 – 8958, 1, No. 6, 15-20 (2012).

35.

M. A. Chowdhury, D. M. Nuruzzaman, A. Kowser, R. Mahman, B. K. Roy, “Frictional behavior of polymers sliding against smooth and rough mild steel counter faces,” Middle-East J. Sci. Res., 21, No. 3, 477-486 (2014).

36.

K. Tanaka, Y. Uchiyama, and S. Toyooka, “The mechanism of wear of polytetrafluoroethylene,” Wear, 23, No. 2, 153-172 (1973).CrossRef

37.

K. Tanaka, “Transfer of semicrystalline polymers sliding against smooth steel surface,” Wear, 27, 183-187 (1982).CrossRef

38.

N. V. Klaas, K. Marcus, and C. Kellock, “The tribological behavior of glass filled polytetrafluoroethylene,” Tribology International, 38, No. 9, 824-833 (2005).CrossRef

Titel: Dry Wear and Metallographic Study of PTFE Polymer Composites
verfasst von: Y. Şahin
Publikationsdatum: 09.07.2018
Verlag: Springer US
Erschienen in: Mechanics of Composite Materials / Ausgabe 3/2018
Print ISSN: 0191-5665
Elektronische ISSN: 1573-8922
DOI: https://doi.org/10.1007/s11029-018-9751-7

Premium Partner

Marktübersichten

Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.

Zur Marktübersicht

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 3/2018

Analysis of Torsional Waves in a Prestressed Composite Structure with Loosely Bonded and Corrugated Boundaries

Diagram and Parameters of Fatigue Sensitivity for Evaluating the Residual Strength of Layered GFRP Composites After Preliminary Cyclic Loadings

Finite-Layer Method: Calculation of Interface Stresses in a Composite Panel Reinforced by T-Stringers

Mechanical Behavior of a Unidirectional Basalt-Fiber-Reinforced Plastic Under Thermomechanical Loadings

Interfacial Strain Energy Continuity Assumption-Based Analysis of an Orthotropic-Skin Sandwich Plate Using a Refined Layer-by-Layer Theory

Rational Choice of Angle-Ply Composites for Identification of the Elastic Characteristics of Unidirectional Composites

Premium Partner

Marktübersichten