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2017 | OriginalPaper | Chapter

2. Conventional DC Plasma Nitriding

Authors : Hossein Aghajani, Sahand Behrangi

Published in: Plasma Nitriding of Steels

Publisher: Springer International Publishing

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Abstract

As known before, the usual source for generating the plasma in plasma nitriding system is DC current (conventional or pulsed). This chapter just includes the results obtained by conventional DC plasma nitriding system on different grades of steels including stainless steels (austenitic, martensitic or precipitation hardening types), tool steels, and structural and constructional steels. This chapter consists of microstructural, mechanical, and corrosion properties obtained after conventional DC plasma nitriding of steels.

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previous chapter Introduction

next chapter Pulsed DC Glow Discharge Plasma Nitriding

mixture of equal parts of hydrochloric acid and CuSO₄ saturated aq. solution.

Xu X L, Wang L, Yu Z W, Hei Z K (2000) Microstructural characterization of plasma nitrided austenitic stainless steel. Surf Coat Technol 132:270-274

Wang J, Xiong J, Peng Q, Fan H, Wang Y, Li G, Shen B (2009) Effects of DC plasma nitriding parameters on microstructure and properties of 304L stainless steel. Mater Charact, 60:197–203

Stinville J C, Villechaise P, Templier C, Riviere J P, Drouet M (2010) Plasma nitriding of 316L austenitic stainless steel: Experimental investigation of fatigue life and surface evolution. Surf Coat Technol 204:1947–1951

Li G J, Peng Q, Li C, Wang Y, Gao J, Chen S Y, Wang J, Shen B L (2008) Effect of DC plasma nitriding temperature on microstructure and dry-sliding wear properties of 316L stainless steel. Surf Coat Technol 202:2749–2754

Egawa M, Ueda N, Nakata K, Tsujikawa M, Tanaka M (2010) Effect of additive alloying element on plasma nitriding and carburizing behavior for austenitic stainless steels. Surf Coat Technol 205:S246–S251

de Oliveira A M, Muñoz Riofano R M, Casteletti L C, Tremiliosi G F, Bento C A S (2003) Effect of the Temperature of Plasma Nitriding in AISI 316L Austenitic Stainless Steel. Revista Brasileira de Aplicações de Vácuo 22:63-66

Olzon-Dionysio M, Campos M, Kapp M, de Souza S, de Souza S D (2010) Influences of plasma nitriding edge effect on properties of 316 L stainless steel. Surf Coat Technol 204:3623–3628

Nakajima M, Nakamura Y, Suzuki K, Bai Y, Uematsu Y (2014) Effect of solution treatment after nitriding on fatigue properties in type 304 stainless steel. Int J Fatigue 68:103–110

Wang L, Ji S, Sun J (2006) Effect of nitriding time on the nitrided layer of AISI 304 austenitic stainless steel. Surf Coat Technol 200:5067 – 5070

10.

Sun Y, Haruman E (2006) Effect of carbon addition on low-temperature plasma nitriding characteristics of austenitic stainless steel. Vac 81:114–119

11.

Borges C F M, Hennecke S, Pfender E (2000) Decreasing chromium precipitation in AISI 304 stainless steel during the plasma-nitriding process. Surf Coat Technol 123:112–121

12.

Alphonsa I, Chainani A, Raole P M, Ganguli B, John P I (2002) A study of martensitic stainless steel AISI 420 modified using plasma nitriding. Surf Coat Technol 150:263–268

13.

Li C X, Bell T (2006) Corrosion properties of plasma nitrided AISI 410 martensitic stainless steel in 3.5% NaCl and 1% HCl aqueous solutions. Corros Sci 48:2036–2049

14.

Pinedo C E, Monteiro W A (2004) On the kinetics of plasma nitriding a martensitic stainless steel type AISI 420. Surf Coat Technol 179:119–123

15.

Wu K, Liu G Q, Wang L, Xu B F (2010) Research on new rapid and deep plasma nitriding techniques of AISI 420 martensitic stainless steel. Vac 84:870–875

16.

Esfandiari M, Dong H (2007) Improving the surface properties of A286 precipitation-hardening stainless steel by low-temperature plasma nitriding. Surf Coat Technol 201:6189–6196

17.

Sobiecki J R, Ma!nkowski P, Patejuk A (2004) Improving the performance properties of valve martensitic steel by glow discharge-assisted nitriding. Vac 76:57–61

18.

Li G J, Wang J, Li C, Peng Q, Gao J, Shen B (2008) Microstructure and dry-sliding wear properties of DC plasma nitrided 17-4 PH stainless steel. Nucl Instrum Methods Phys Res B 266:1964–1970

19.

Dong H, Esfandiari M, Li X Y (2008) On the microstructure and phase identification of plasma nitrided 17-4PH precipitation hardening stainless steel. Surf Coat Technol 202:2969–2975

20.

Birol Y (2010) Response to thermal cycling of plasma nitrided hot work tool steel at elevated temperatures. Surf Coat Technol 205:597–602

21.

Nouveau C, Steyer Ph, Rao K R M, Lagadrillere D (2011) Plasma nitriding of 90CrMoV8 tool steel for the enhancement of hardness and corrosion resistance. Surf Coat Technol 205: 4514–4520

22.

da Silva Rocha A, Strohaecker T, Tomala V, Hirsch T (1999) Microstructure and residual stresses of a plasma-nitrided M2 tool steel. Surf Coat Technol. 115:24–31

23.

Pessin M A, Tier M D, Strohaecker T R, Bloyce A, Sun Y, Bell T (2000) The effects of plasma nitriding process parameters on the wear characteristics of AISI M2 tool steel. Tribol Lett 8:223–228

24.

Li C X, Sun Y, Bell T (2000) Factors influencing fretting fatigue properties of plasma-nitrided low alloy steel. Mater Sci Eng A292:18–25

25.

Karaog˘lu S (2003) Structural characterization and wear behavior of plasma-nitrided AISI 5140 low-alloy steel. Mater Charact 49:349– 357

26.

Karakan M, Alsaran A, Ҫelik A (2003) Effects of various gas mixtures on plasma nitriding behavior of AISI 5140 steel. Mater Charact 49:241– 246

27.

Mahboubi F, Abdolvahabi K (2006) The effect of temperature on plasma nitriding behaviour of DIN 1.6959 low alloy steel. Vac 81:239–243

28.

Yasavol N, Mahboubi F (2012) The effect of duplex plasma nitriding-oxidizing treatment on the corrosion resistance of AISI 4130 steel. Mater Des 38:59–63

29.

Alsaran A, Altun H, Karakan M, Çelik A (2004) Effect of post-oxidizing on tribological and corrosion behaviour of plasma nitrided AISI 5140 steel. Surf Coat Technol 176:344–348

30.

Alsaran A, Yildiz F, Çelik A (2006) Effects of post-aging on wear and corrosion properties of nitrided AISI 4140 steel. Surf Coat Technol 201:3147–3154

31.

Alves Jr C, Lima J A, Hajek V, Marimon da Cunha J B, dos Santos C A (2007) Effect of cooling rate on properties of plasma nitrided AISI 1010 steel. Surf Coat Technol 201:7566–7573

32.

Ashrafizadeh F (2003) Influence of plasma and gas nitriding on fatigue resistance of plain carbon (Ck45) steel. Surf Coat Technol 173 –174:1196–1200

33.

Marchev K, Cooper C V, Giessen B C (1998) Observation of a compound layer with very low friction coefficient in ion-nitrided martensitic 410 stainless steel. Surf Coat Technol 99:229-233

34.

Şengül A B, Çelik A (2011) Effect of plasma nitriding on fatigue crack growth on AISI 4140 steel under variable amplitude loading. Surf Coat Technol 205:5172–5177

Title: Conventional DC Plasma Nitriding
Authors: Hossein Aghajani
Sahand Behrangi
Publisher: Springer International Publishing
Book: Plasma Nitriding of Steels
Print ISBN: 978-3-319-43067-6

Electronic ISBN: 978-3-319-43068-3

Copyright Year: 2017
DOI: https://doi.org/10.1007/978-3-319-43068-3_2

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