Top

Published in:

2019 | OriginalPaper | Chapter

4. Friction and Wear Characteristics of Heat Treated Electroless Ni–P–W Coatings Under Elevated Temperature

Authors : Sanjib Kundu, Suman Kalyan Das, Prasanta Sahoo

Published in: Advances in Materials, Mechanical and Industrial Engineering

Publisher: Springer International Publishing

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

ABSTRACT

Tribological characteristics of Ni–P–W coatings at elevated temperature developed via autocatalytic deposition over mild steel have been researched. The film is portrayed for its crystallographic arrangement, morphology, solidity and the tribological attributes. A pin-on-disc set-up in which EN 31 plate is used as static counterpart is employed. All the wear experiments are done under room condition and also to 500 °C. The deposited Ni–P–W covered surface has a blend of amorphous and crystalline phase, and it ends up fully crystalline with the formation of Ni–W and Ni₃P after heating operation at 400 °C for 1 h. EDX investigation reveals the content of tungsten in the Ni–P–W combination to be around 4.5 wt%. Wear resistance of coating is observed to be negatively affected by the test temperature. Wear rate is inversely related with sliding velocity for a fixed value of load in high-temperature tests. Coefficient of friction, however, remained almost passive to elevated temperature tests. Wear rate is also found to vary with the applied load for a fixed sliding velocity. Increase in temperature causes increase in wear rate because of material softening at elevated temperature. Abrasive wear mechanism is observed for the Ni–P–W film examined at room condition, while for the same tested at a temperature of 500 °C, a mix adhesive and abrasive wear system are noted.

Dont have a licence yet? Then find out more about our products and how to get one now:

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!

inform now

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!

inform now

previous chapter Behaviour Analysis and Comparison of Tribological Characteristics of Electroless Ni–B Coating under Dry and Lubricated Condition

next chapter Hardness, Friction and Wear Trends of Electroless Ni-W-P Coating Heat-Treated at Different Temperatures

Brenner, A., Riddell, G.E.: Nickel plating on steel by chemical reduction. J. Res. Natl Bur. Stan. 37(1), 31–34 (1946)CrossRef

Sahoo, P., Das, S.K.: Tribology of electroless nickel coatings—a review. Mater. Des. 32(4), 1760–1775 (2011)CrossRef

Kundu, S., Das, S.K., Sahoo, P.: Properties of electroless nickel at elevated temperature-a review. In: Procedia Engineering, 97, 1698–1706 (2014)CrossRef

Loto, C.A.: Electroless nickel plating—a review. Silicon 8(2), 177–186 (2016)CrossRef

Elansezhian, R., Ramamoorthy, B., Nair, P.K.: Effect of surfactants on the mechanical properties of electroless (Ni–P) coating. Surf. Coat. Technol. 203(5–7), 709–712 (2008)CrossRef

Das, S.K., Sahoo, P.: Optimization of electroless Ni-B coatings based on multiple roughness characteristics. J. Technol. Sci. Educ. 2(1/2), 85–106 (2011)

Vitry, V., Delaunois, F., Dumortier, C.: Mechanical properties and scratch test resistance of nickel–boron coated aluminium alloy after heat treatments. Surf. Coat. Technol. 202(14), 3316–3324 (2008)CrossRef

Balaraju, J.N., Rajam, K.S.: Electroless deposition of Ni–Cu–P, Ni–W–P and Ni–W–Cu–P alloys. Surf. Coat. Technol. 195(2–3), 154–161(2005)CrossRef

Kundu, S., Das, S.K., Sahoo, P.: Optimization studies on electroless nickel coatings: a review. Int. J. Manuf, Mater. Mech. Eng. 4(4), 1–25 (2014)

10.

Agarwala, R.C., Agarwala, V.: Electroless alloy/composite coatings: a review. Sadhana 28(3–4), 475–493 (2003)CrossRef

11.

Sudagar, J., Lian, J., Sha, W.: Electroless nickel, alloy, composite and nano coatings—a critical review. J. Alloy. Compd. 571, 183–204 (2013)CrossRef

12.

Yu, H.S., Luo, S.F., Wang, Y.R.: A comparative study on the crystallization behavior of electroless Ni–P and Ni–Cu–P deposits. Surf. Coat. Technol. 148, 143–148 (2001)CrossRef

13.

Bangwei, Z., Wangyu, H., Qinglong, Z., Xuanynan, Q.: Properties of electroless Ni-W-P amorphous alloys. Mater. Charact. 37, 119–122 (1996)CrossRef

14.

Bouanani, M., Cherkaoui, F., Fratesi, R., Roventi, G., Barucca, G.: Microstructural characterization and corrosion resistance of Ni-Zn-P alloys electrolessly deposited from a sulphate bath. J. Appl. Electrochem. 29, 637–645 (1999)CrossRef

15.

Palaniappa, M., Seshadri, S.K.: Friction and wear behavior of electroless Ni–P and Ni–W–P alloy coatings. Wear 265(5–6), 735–740 (2008)CrossRef

16.

Lu, G., Zangari, G.: Corrosion resistance of ternary Ni-P based alloys in sulfuric acid solutions. Electrochim. Acta 47, 2969–2979 (2002)CrossRef

17.

Huang, Y., Huang, F., Zhao, W., Shi, K., Zhao, L., Wang, Y.: The study of electroless Ni-W-P alloy plating on glass fibre. Rare Met. 26(4), 365–371 (2007)CrossRef

18.

Roy, S., Sahoo, P.: Optimization of electroless Ni-P-W coating for minimum friction and wear using grey Taguchi method, Article ID 608140. J. Coat 2013, 1–13 (2013)CrossRef

19.

Ashassi-Sorkhabi, H., Dolati, H., Parvini-Ahmadi, N., Manzoori, J.: Electroless deposition of Ni-Cu-P alloy and study of the influences of some parameters on the properties of deposits. Appl. Surf. Sci. 185, 155–160 (2002)CrossRef

20.

Chen, C.J., Lin, K.L.: Internal stress and adhesion of amorphous Ni–Cu–P alloy on aluminum. Thin Solid Films 370, 106–113 (2000)CrossRef

21.

He, S.Z., Huang, X.M., Zheng, H.M., Li, P., Lin, Z.P., Shan, C.L.: Research on wear behavior of Ni-Cu-P co acting in different mediums. MocaxueXuebao/Tribol. 29(4), 362–367 (2009)

22.

Roy, S., Sahoo, P.: Optimization of wear of electroless Ni-P-Cu coating using artificial bee colony algorithm. In: Procedia Technology, 14, 320–327 (2014)CrossRef

23.

Stremsdoerfer, G., Omidvar, H., Roux, P., Meas, Y., Ortega-Borges, R.: Deposition of thin films of Ni–P and Ni–B–P by dynamic chemical plating. J. Alloy. Compd. 466, 391–397 (2008)CrossRef

24.

Srinivasan, K.N., Meenakshi, R., Santhi, A., Thangavelu, P.R., John, S.: Studies on development of electroless Ni–B bath for corrosion resistance and wear resistance applications. Surf. Eng. 26(3), 153–158 (2010)CrossRef

25.

Balaraju, J.N., Kalavati. and Rajam, K.S. Electroless deposition of Ni–Cu–P, Ni–W–P and Ni–W-Cu–P alloy. J. Alloys Compd. 486, 468–473 (2009)

26.

Balaraju, J.N.Millath, Jahan, S., Anandan, C., Rajam, K.S.: Studies on electroless Ni–W–P and Ni–W–Cu–P alloy coatings using chloride-based bath. Surf. Coat. Technol. 200, 4885–4890 (2006)CrossRef

27.

John, S.S., Srinivasan, K.N., Kavimani, P.M., Krishnan, K.H., Praveen, J., Ganesan, M.: Technical article: Electroless Ni-P-TiO₂ based composite coatings for surface engineering applications. Plat. Surf. Finish. 92(5), 62–66 (2005)

28.

Gadhari, P., Sahoo, P.: Effect of TiO₂ particles on micro-hardness, corrosion, wear and friction of Ni–P–TiO₂ composite coatings at different annealing temperatures. Surf. Rev. Lett. 22(1550082), 1–15 (2015). https://doi.org/10.1142/S0218625X15500821CrossRef

29.

Novák, M., Vojtěch, D., Vľtů, T.: Influence of heat treatment on tribological properties of electroless Ni–P and Ni–P–Al₂O₃ coatings on Al–Si casting alloy. Appl. Surf. Sci. 256(9), 2956–2960 (2010)CrossRef

30.

Ozimina, D., Madej, M., Kaldonski, M.T., Senatorski, J.: Production and tribological properties of anti wear Ni-P-Al₂O₃ composite coatings. Tribol. Schmierungstech. 55(2), 37–41 (2008)

31.

Winowlin Jappes, J.T., Ramamoorthy, B., Kesavan Nair, P.: Novel approaches on the study of wear performance of electroless Ni–P/diamond composite deposits. J. Mater. Process. Technol. 209(2), 1004–1010 (2009)CrossRef

32.

Gadhari, P., Sahoo, P.: Effect of annealing temperature and alumina particles on mechanical and tribological properties of Ni-P-Al₂O₃ composite coatings. Silicon 9(5), 761–774 (2017)CrossRef

33.

Ramalho, A., Miranda, J.C.: Friction and wear of electroless NiP and NiP + PTFE coatings. Wear 259(7–12), 828–834 (2005)CrossRef

34.

Srinivasan, K.N., John, S.: Studies on electroless nickel-PTFE composite coatings. Surf. Eng. 21(2), 156–160 (2005)CrossRef

35.

Lu, X.R., Liu, Y., Li, S.: Tribological behaviors of electroless composite plating with nano-particle PTFE. MocaxueXuebao/Tribol. 29(2), 116–122 (2009)

36.

Zou, T.Z., Tu, J.P., Zhang, S.C., Chen, L.M., Wang, Q., Zhang, L.L., He, D.N.: Friction and wear properties of electroless Ni-P-(IF-MoS₂) composite coatings in humid air and vacuum. Mat. Sci. Eng. A 426(1–2), 162–168 (2006)CrossRef

37.

Hu, X., Jiang, P., Wan, J., Xu, Y., Sun, X.: Study of corrosion and friction reduction of electroless Ni–P coating with molybdenum disulfide nanoparticles. J. Coat. Technol. Res. 6(2), 275–281 (2009)CrossRef

38.

Zhao, G., Deng, F.: Electroless plating of Ni-P-CNTs composite coating. Key Eng. Mater. 280–283, 1445–1448 (2005)

39.

Zhao, G., Zhang, H., Wang, Z.: Friction and wear resistance of the electroless Ni-P-CNTs composite coatings. In: Proceedings of SPIE, 6423, 64235S. (2007)

40.

Li, Z.L., Wang, B., Guan, H.Y.: Preparation and properties of nano-TiO₂-Ni-P composite coating. Corros. Prot. 27(8), 326–328 (2006)

41.

Makkar, P., Agarwala, R.C., Agarwala, V.: Chemical synthesis of TiO₂ nano particles and their inclusion in Ni–P electroless coatings. Ceram. Int. 39(8), 2741–2745 (2013)CrossRef

42.

Sahoo, P.: Wear behaviour of electroless Ni–P coatings and optimization of process parameters using Taguchi method. Mater. Des. 30, 1341–1349 (2009)CrossRef

43.

Duncan, R.N.: The metallurgical structure of electroless nickel deposits: effect on coating properties. Plat. Surf. Finish. 83(11), 65–69 (1990)

44.

Tsai, Y.Y., Wu, F.B., Chen, Y.I., Peng, P.J., Duh, J.G., Tsai, S.Y.: Thermal stability and mechanical properties of Ni–W–P electroless deposits. Surf. Coat. Technol. 146–147, 502–507 (2001)CrossRef

45.

Tien, S.K., Duh, J.G., Chen, Y.I.: The influence of thermal treatment on the microstructure and hardness in electroless Ni–P–W deposit. Thin Solid Films 469, 333–338 (2004)CrossRef

46.

Roy, S., Sahoo, P.: Wear performance optimization of electroless Ni-P-W coating parameters using the Taguchi method. Paper ID: TSI 812541. In: ICIT-2012, The westin Pune Koregaon Park, India, 7–9th December 2012

47.

Pearlstein, F., Weightman, R.F., Wick, R.: Nickel-Tungsten electroless deposition. Met. Finish. 61, 77–81 (1963)

48.

Brenner,A.: Electro Deposition of Alloys, vol. 2, Academic press, New York (1963)

49.

Masoumi, F., Ghasemi, H.R., Ziaei, A.A., Shahriari, D.: Tribological characterization of electroless Ni–10% P coatings at elevated test temperature under dry conditions. Int. J. Adv. Manuf. Technol. 62, 1063–1070 (2012)CrossRef

50.

Li, Z., Wang, J., Lu, J., Meng, J.: Tribological characteristics of electroless Ni–P–MoS₂ composite coatings at elevated temperatures. Appl. Surf. Sci. 264, 516–521 (2013)CrossRef

51.

Alirezaei, S., Monirvaghefi, S.M., Saatchi, A. €Urgen, M., Motallebzadeh, A.: High temperature friction and wear behaviour of Ni-P-Ag-Al₂O₃ hybrid nanocomposite coating. Trans. Inst. Met. Finish. 91, 207–213 (2013)

52.

Franco, M., Sha, W., Aldic, G., Malinov, S., Cimeno_glu, H.: Effect of reinforcement and heat treatment on elevated temperature sliding of electroless Ni–P/SiC composite coatings. Tribol. Int. 97, 265–271 (2016)CrossRef

53.

Kundu, S., Das, S.K., Sahoo, P.: Tribological behaviour of electroless Ni-P deposits under elevated temperature. Silicon 10(2), 329–342 (2018)CrossRef

54.

Wu, F.B., Tien, S.K., Chen, W.Y., Duh, J.G.: Microstructure evaluation and strengthening mechanism of Ni–P–W alloy coatings. Surf. Coat. Technol. 177, 312–316 (2004)CrossRef

55.

He, X.M., Liu, X.B., Wang, M.D., Yang, M.S., Shi, S.H., Fu, G.Y., Chen, S.F.: Elevated temperature dry sliding wear behavior of nickel-based composite coating on austenitic stainless steel deposited by a novel central hollow laser cladding. Appl. Surf. Sci. 258(1), 535–541 (2011)CrossRef

56.

Mukhopadhyay, A., Barman, T.K., Sahoo, P.: Tribological behavior of electroless Ni–B–W coating at room and elevated temperatures. In: Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 1–17, (2018) https://doi.org/10.1177/1350650118755781CrossRef

57.

Panja, B. Das, S.K., Sahoo, P.: Tribological Behavior of Electroless Ni–P Coatings in Various Corrosive Environments. Surf. Rev. Lett. 23(5), 1650040, 1–18 (2016)CrossRef

58.

Lewis, D.B., Marshall, G.W.: Investigation into the structure of electrodeposited nickel-phosphorus alloy deposits. Surf. Coat. Technol. 78, 150–156 (1996)CrossRef

59.

Balaraju, J.N., Kalavati, Manikandanath, N.T., William Grip, V.K.: Phase transformation behavior of nanocrystalline Ni–W–P alloys containing various W and P contents. Surf. Coat. Technol. 206, 2682–2689 (2012)CrossRef

60.

Osaka, T., Sawai, H., Otoi, F., Nihei, K.: Autocatalytic (electroless) nickel-tungsten-phosphorus plating. Met. Finish. 80(8), 31–35 (1982)

61.

Keong, K.G., Sha, W., Malinov, S.: Artificial neural network modelling of crystallization temperatures of the Ni–P based amorphous alloys. Mater. Sci. Eng. A, 365, 212–218 (2004)CrossRef

62.

Maugis, D. In: Georges, J.M. (ed) Microscopic Aspects of Adhesion and Lubrication, Tribology Series 7, p. 221, Elsevier, Amsterdam (1982)

Title: Friction and Wear Characteristics of Heat Treated Electroless Ni–P–W Coatings Under Elevated Temperature
Authors: Sanjib Kundu
Suman Kalyan Das
Prasanta Sahoo
Publisher: Springer International Publishing
Book: Advances in Materials, Mechanical and Industrial Engineering
Print ISBN: 978-3-319-96967-1

Electronic ISBN: 978-3-319-96968-8

Copyright Year: 2019
DOI: https://doi.org/10.1007/978-3-319-96968-8_4

Springer Professional

ABSTRACT

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Premium Partners