- Z. L. Zhang and T. Bell: Surf Eng., 1985, 1 (2), 131–136.
- K. Ichii, K. Fujimura and T. Takase: Technol. Rep. Kansai Univ., 1986, 27, 135–144.
- E. Rolinski: Surf Eng., 1987, 3, 35–40.
- P. A. Dearnley, A. Namver, G. G. A. Hibberd and T. Bell: in ‘Plasma surface engineering’, (ed. E. Broszeit et al.), Vol. 1, 219-226; 1989, Oberursel, DGM Informationgesellschaft mbH.
- Y. Sun, T. Bell, Z. Kolosvary and J. Flis: Heat Treat. Met., 1999, 26 (1), 9–16.
- T. Bell and Y. Sun: Proc. Int. Conf. on ‘Surface science and engineering’, (ed. R. Z. Zhu), 9-14; 1995, Beijing, International Academic Publishers.
- T. Bell, X. Y. Li and Y. Sun: Chn Surf Eng., 1998, 4, 40–48.
- Y. Sun, X. Y. Li and T. Bell: J. Mater. Sci., 1999, 34, 4793–4802.
- T. Bell and Y. Sun: ‘Effect of layer thickness on the rolling-sliding wear behavior of low- temperature plasma-carburized austenitic stainless steel’, US patent no. 6238490, May 29, 2001.
- Y. Sun, X. Y. Li and T. Bell: Surf Eng., 1999, 15, 49–54.
- T. Bell and K. Akamatsu (eds.): ‘Stainless steel 2000 — thermo-chemical surface engineering of stainless steels’; 2001, London, Maney.
- T. Bell (ed.): Surf Eng., 2002, 18, (6), 401–476.
- E. Menthe, K-T. Rie, J. W. Schultze and S. Simson: Surf Coat. Technol, 1995, 74-75, 412-416.
- M. J. Marques, J. Pina, A. M. Dias, J. P. Lebrun and J. Feugeas: Surf Coat. Technol, 2005, 195, 8–16.
- R. Wei, J. J. Vajo, J. N. Matossian, P. J. Wilbur, J. A. Davis, D. L. Williamson and G. A. Collins: Surf Coat. Technol., 1996, 83, 235–242.
- G. A. Collins, R. Hutchings and J. Tendys: Mater. Sci Eng. A, 1991, A139, 171-178.
- C. Blawert, A. Weisheit, B. L. Mordike and F. M. Knoop: Surf Coat. Technol., 1996, 85, 15–27.
- T. Bell and Y. Sun: Heat Treat. Met., 2002, 29, (3), 57–64.
- N. Yasumaru: Mater. Trans. JIM, 1998, 39, 1046–1052.
- J. P. Riviere, C. Templier, A. Declemy, O. Redjdal, Y. Chumlyakov and G. Abrasinis: Surf Coat. Technol., 2007, 201, 8210–8214.
- M. P. Fewell and J. M. Priest: Surf Coat. Technol, 2008, 202, 1802–1815.
- X. Y. Li, N. Habibi, T. Bell and H. Dong: Surf Eng., 2007, 23, 45–51.
- A. celik, O. Bayrak, A. Alsaran, I. Kaymaz and A. F. Yetim: Surf Coat. Technol., 2008, 202, 2433-2438.
- V. Singh and E. I. Meletis: Surf Coat. Technol, 2006, 201, 1093–1101.
- J. Chen, X. Y. Li, T. Bell and H. Dong: Wear, 2008, 264, 157–165.
- G. Aldrich-Smith and P. A. Dearnley: Tribol. Interface Eng. Ser., 2000, 38, 173–180.
- K. L. Dahm and P. A. Dearnley: Wear, 2005, 259, 933–942.
- J. von Stebut, A. Barbeida, A. Saker, A. Billard and R. Rezakhanlou: Surf Coat. Technol., 1993, 57, 31–37.
- S. R. Kappaganthu and Y. Sun: J. Cryst. Growth, 2004, 267, 385–393.
- Y. Sun, X. Y. Li and T. Bell: Mater. Sci. Technol., 1999, 15, 1171–1178.
- S. Thaiwatthana, X. Y. Li, H. Dong and T. Bell: Surf Eng., 2002, 18, (6), 433–437.
- C. Blawert, H. Kalvelage, B. L. Mordike, G. A. Collins, K. T. Short, Y. Jiraskova and O. Schneeweiss: Surf Coat. Technol., 2001, 136, 181-187.
- Y. Sun and T. Bell: Tribol. Lett., 2002, 13, 29–34.
- Zhao Cheng, C. X. Li, H. Dong and T. Bell: Surf Coat. Technol, 2005, 191, 195–200.
- M. Tsujikawa, D. Yoshida, N. Yamauchi, N. Ueda, T. Sone and S. Tanaka: Surf Coat. Technol., 2005, 200, 507–511.
- Y. Sun and E. Haruman: Surf Coat. Technol, 2008, 202, 4069–4075.
- Y. Sun, Mater. Sci. Eng. A, 2005, A402, 124-129.
- A. Leyland, D. B. Lewis, P. R. Stevenson and A. Matthews: Surf Coat. Technol., 1993, 62, 608–617.
- M. Tsujikawa, N. Yamauchi, N. Ueda, T. Sone and Y. Hirose: Surf Coat. Technol., 2005, 193, 309–313.
- A. M. Abd El-Rahman, E. M. El-Hossary, T. Fitz, N. Z. Negm, F. Prokert, M. T. Pham, E. Richter and W. Moller: Surf Coat. Technol., 2004, 183, 268–274.
- J.P. Buhagiar, H. Dong and T. Bell: Surf. Eng., 2007, 23, 313–317.
- J.P. Buhagiar and H. Dong: Key Eng. Mater., 2008, 296, 373–374.
- T. Christiansen and M. A. J. Somers: Surf Eng., 2005, 21,445–455.
- S. Parascandola, W. Moller and D. L. Williamson: in ‘Stainless Steel 2000: Thermochemical Surface Engineering of Stainless Steel’, (ed. T. Bell and K. Akamatsu), 201-214; 2000, London, Maney.
- F. Borgioli, A. Fossati, E. Galvanetto, T. Bacci and G. Pradelli: Surf Coat. Technol., 2006, 200, 5505–5513.
- Y. Sun and E. Haruman: Vacuum, 2006, 81, 114–119.
- D. B. Lewis, A. Leyland, P. R. Stevenson, J. Cawley and A. Matthews: Surf Coat. Technol., 1993, 60, 416–423.
- Y. Sun and T. Bell: Wear, 2002, 253, 689–693.
- Y. Sun: Trans. Mater. Heat Treat., 2004, 25, 307–310.
- Y. Sun: Mater. Lett., 2005, 59, 3410–3413.
- T. Bell: Heat Treat. Met., 1975, 2, (2), 39–49.
- A. Brokman, F. Dothan and F. Tuler: Mater. Sci. Eng., 1979, 40, 261–263
- Y. Sun: Mater. Lett., 2005, 59, 3410–3413.
- M. Tsujikawa, S. Noguchi, N. Yamauchi, N. Ueda and T. Sone: Surf Coat. Technol., 2007, 201, 5102–5107.
- D. Munter, H.-J. Species, H. Biermann and C. Eckstein: Trans. Mater. Heat Treat., 2004, 25, 311–315.
- F. J. Martin, E. J. Lemieux, T. M. Newbauer, R. A. Bayles, P. M. Natishan, H. Kahn, G. M. Michal, F. Ernst and A. H. Heuerd: Eleetrochem. Solid State Lett., 2007, 10, C76–C78.
- T. Bell: Key Eng. Mater., 2008, 373, 289–295.
Production of nitrogen and carbon S phases in austenitic stainless steels by hybrid plasma surface alloying
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