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Utskrift från Malmö högskola - $.mah.se

John Christopher Ion
universitetslektor

citat Materialval i Mekanisk Design citat
John Ion är lektor i materialvetenskap i Institution för medieteknik och produktutveckling. Hans primära forskningsintressen är: modellering av fasomvandlingar i metaller och legeringar, val av material i produktdesign och laserbearbetning av konstruktionsmaterial. Han undervisar primärt inom materialteknik.

Kontaktuppgifter

E-post:john.ion@mah.se
Telefon:040-66 57704
Besöksadress: Nordenskiöldsgatan 1, NI:Plan 7, Hus B
Mobil:
Fax:
Postadress:Malmö högskola, Teknik och samhälle, 205 06 Malmö
Hämtställe:71

  • Publikationer

  • I urval från Malmö University Electronic Publishing.

    Vetenskapliga artiklar med peer-review
    Fisk, Martin, Ion, John, Lindgren, Lars-Erik (2014) "Flow stress model for IN718 accounting for evolution of strengthening precipitates during thermal treatment" Computational Materials Science;, 531-539, Elsevier, ISSN 0927-0256, DOI [länk], (PDF document) (application/pdf)

    Antologibidrag
    Chang Chung, S, Friction, J (red./ed.) | Nilner, Maria (2006) Reflections on Ulf Posselt: His Contribution to Bite Physiology. Shinhung International, 207-217,

    Chang Chung, S, Friction, J (red./ed.) | Nilner, Maria (2006) The Past, Present and Future of TMD and Orofacial Pain in Scandinavian Countries. Shinhung International, 155-174,
  • Övriga uppdrag och meriter

  • Ion, J.C. (2005). Laser Processing of Engineering Materials. Oxford: Elsevier.

    Kujanpää, V. and Ion, J.C. eds (1999). Proceedings of the 7th Nordic Conference on Laser Materials Processing. Lappeenranta: Acta Universitatis Lappeenrantaensis. 559p

    Porter, D.A., Easterling, K.E. and Sherif, M.Y, Phase Transformations in Metals and Alloys. 3rd ed. Boca-Raton: CRC Press, 421-489.

    Ion, J.C. (2002). Laser processing of engineering materials. In: Recent Research Developments in Materials Science: Vol. 3, Research Signpost,

    Riches, S.T. and Ion, J.C. (2000). Guide to high average power Nd:YAG laser processing with fibre optic beam delivery for metals. In: The Automotive Industry. Core Research from TWI. Abington: Abington Publishing. 1-37.

    Ion, J.C. (1997). Modelling of laser welding of carbon manganese steels. In: Bhadeshia, H.K.D.H. ed. Proceedings of the Conference Mathematical Modelling of Weld Phenomena 3. London: The Institute of Materials, 917-931.

    Ion, J.C. and Moisio, T.J.I. (1995). Laser-based manufacturing. In: High Technology in Finland 1995. Helsinki: The Finnish Academies of Technology, 14-115.

    Ion, J.C. (1992). Modelling of laser materials processing. In: Belforte, D.A. and Levitt, M. eds Industrial Laser Handbook. New York: Springer-Verlag, 39-47.

    Stjernberg, J., Olivas-Ogaz, M.A., Antti, M.-L., Ion, J.C., and Lindblom, B. (2013). Laboratory scale study of mullite/corundum refractories by reaction with alkali-doped deposit materials. Ceramics International, 39, 791–800. DOI: 10.1016/j.ceramint.2012.06.094.

    Stjernberg, J., Ion, J.C., Antti, M.-L., Nordin, L.-O., Lindblom, B. and Odén, M. (2012). Extended studies of degradation mechanisms in the refractory lining of a rotary kiln for iron ore pellet production. Journal of the European Ceramic Society, 32, 1519-1528. DOI: 10.1016/j.jeurceramsoc.2012.01.012.

    Stjernberg, J., Antti, M-L., Ion, J. and Lindblom, B. (2011). Lab scale study of the depletion of mullite/corundum-based refractories through reaction with scaffold materials. In: IOP Conference Series: Materials Science and Engineering: Symposium 16, 2011 (222001-222031) Innovation in Refractories and Traditional Ceramics .IOP Publishing Ltd , Vol. 18 , 4 p. (IOP Conference Series: Materials Science and Engineering; No. 16, Vol. 18). DOI:10.1088/1757-899X/18/22/222004.

    Ion, J.C. (2002). Laser transformation hardening. Surface Engineering, 18, 14-31. DOI: 10.1179/026708401225001228.

    Ion, J.C. and Kokkonen, J. (2001). A comparison of GTA and CO2 laser beam welding of AA2024. Journal of Laser Applications, 13, (2), 79-83. DOI: 10.2351/1.1356419.

    Ion, J.C. (2000). Laser beam welding of wrought aluminium alloys. Science and Technology of Welding and Joining, 5, 265-276. DOI: 10.1179/136217100101538308.

    Ion, J.C. and Anisdahl, L.M. (1997). A PC-based system for procedure development in laser transformation hardening. Journal of Materials Processing Technology, 65, 261-267. DOI: 10.1016/S0924-0136(96)02413-2.

    Ion, J.C., Salminen, A.S. and Sun, Z. (1996). Process diagrams for laser beam welding of carbon manganese steels. Welding Journal, 75, 225s-232s.

    Sun, Z. and Ion, J.C. (1995). Review: Laser welding of dissimilar metal combinations. Journal of Materials Science, 30, 4205-4214. DOI: 10.1007/BF00361499.

    Ion, J.C., Moisio, T., Paju, M. and Johansson, J. (1992). Laser transformation hardening of a low alloy hypoeutectoid steel. Materials Science and Technology, 8, 799-803.

    Ion, J.C., Shercliff, H.R. and Ashby, M.F. (1992). Diagrams for laser materials processing. Acta Metallurgica et Materialia, 40, 1539-1551. DOI: 10.1016/0956-7151(92)90097-X.

    Ion, J.C., Moisio, T., Pedersen, T.F., Sørensen, B. and Hansson, C.M. (1991). Laser surface modification of a 13.5%Cr, 0.6%C steel. Journal of Materials Science, 26, 43-48.

    Ion, J.C. and Easterling, K.E. (1985). Computer modelling of weld implant testing. Materials Science and Technology, 1, 405-411.

    Ion, J.C., Ashby, M.F. and Easterling, K.E. (1984). A second report on diagrams of microstructure and hardness for heat affected zones in welds. Acta Metallurgica, 32, 1949-1962. DOI: 10.1016/0001-6160(84)90176-7.

    Ion, J.C. and Ashby M.F. (2012). Weldability charts for constructional steels. In: 6th EEIGM International Conference Advanced Materials Research: 7th and 8th November 2011 EEIGM, Nancy, France. Bristol: IOP Publishing Ltd. (IOP Conference Series: Materials Science and Engineering; Nr 31), 31, 7p. DOI:10.1088/1757-899X/31/1/012011

    Jansson, A., Ion J. C. and Kujanpää, V. (2003). CO2 and Nd:YAG laser cladding using Stellite 6. In: Miyamoto, I., Kobayashi, K.F., Sugioka, K., Poprawe, R. and Helvajian, H. eds Proceedings of the 1st International Symposium High-Power Laser Macroprocessing (LAMP 2002), 27-31 May 2002, Osaka, Japan. Vol. 4831. Bellingham: SPIE. pp.475-480.

    Pfluger, D., Harris, D. and Ion, J.C. (2002). Optical signal detection of interaction modes and their transitions in laser material coupling. In: Beyer, E. and Patel, R. eds. Proceedings of the Laser Materials Processing Conference (ICALEO 2002). 14-17 October 2002, Scottsdale, Arizona, USA. Orlando: Laser Institute of America. Paper 802.

    Ion, J.C. Laitinen, R. and Kankala, T. (2001). The effect of zinc ethyl silicate shop primer on CO2 laser beam weldability of Raex S275 Laser steel. In: Olsen, F.O. and Kristensen, J.K. eds, Proceedings of the 8th Nordic Conference on Laser Materials Processing, 13-15 August 2001, Copenhagen, Denmark. Copenhagen: Technical University of Denmark. pp.201-212.

    Kujanpää, V., Kauppila, J., Jansson A. and Ion, J. (2000). A preliminary comparison of CO2 and Nd:YAG laser cladding. In: Hügel, H., Matsunawa A. and Mazumder, J. eds Proceedings of the Laser Materials Processing Conference (ICALEO 2000). Orlando: Laser Institute of America. pp.D63-D69.

    Ion, J.C., Kauppila, J. and Metsola, P. (1999). Laser-based fabrication: opportunities for novel design and manufacturing. In: Kujanpää, V. and Ion, J.C. eds (1999). Proceedings of the 7th Nordic Conference on Laser Materials Processing. Lappeenranta: Acta Universitatis Lappeenrantaensis. pp.38-47.

    Kokkonen, J. and Ion, J.C. (1999). CO2 laser welding of the aluminium aerospace alloy AA2024. In: Kujanpää, V. and Ion, J.C. eds (1999). Proceedings of the 7th Nordic Conference on Laser Materials Processing. Lappeenranta: Acta Universitatis Lappeenrantaensis. pp.418-429.

    Partanen, T., Niemelä, K., Ion, J.C. and Martikainen J. (1999). On the capability and accuracy of NDT methods for detecting growing fatigue cracks. International Institute of Welding Document XIII-1788-99, XV-1028-99, Roissy Cedex: International Institute of Welding.

    Verhaege, G., Riches, S.T., Weimer, K. and Ion, J.C. (1997). High power Nd:YAG laser processing. In: Proceedings of the Conference High Productivity Joining Processes. Columbus: Edison Welding Institute. pp.197-210.

    Ion, J.C. (1996). Process diagrams for laser transformation hardening. In: Mazumder, J., Conde, O., Vilar R. and Steen W.M. eds Proceedings of the NATO ASI Laser Processing: Surface Treatment and Film Deposition, 3-16 July 1994, Sesimbra, Portugal. Amsterdam: Kluwer. pp.587-612.

    Kujanpää, V.P. and Ion, J.C. (1995). Procedure development for CO2 laser welding of a high strength structural steel. In: Proceedings of the 5th Nordic Conference on Laser Material Processing (NOLAMP 5). Oslo: SINTEF. pp.101-110.

    Ion, J.C. and Anisdahl, L.M. (1995). PC-based predictive systems for laser welding and hardening of steels. In: Proceedings of the 5th Nordic Conf. Laser Material Processing (NOLAMP 5). Oslo: SINTEF. pp.201-210.

    Ion, J.C. and Salminen A.S. (1993). Design for laser-based manufacturing. In: Orpana, V. and Lukka, M. eds. Proceedings of the International Conference on Production Research. Amsterdam: Elsevier Science Publishers B.V. pp.199-200.

    Anisdahl, L., Ion, J.C. Ryssdal, J. and Thorstensen, B. (1992). Proweld - a PC-based system for developing welding procedures. In: Proceedings of the 4th International Conference on Computer Technology in Welding. Abington: The Welding Institute. Paper 7.

    Ion, J.C., Shercliff, H.R. and Ashby, M.F. (1991). A diagram for laser materials processing. In: Moisio, T. ed. Proceedings of the 3rd Nordic Conference on Laser Materials Processing (NOLAMP3) . Lappeenranta: Lappeenranta University of Technology. pp.171-176.

    Ion, J.C., Moisio, T., Paju, M. and Johansson, J. (1991). The effect of composition on the response of low-alloy steels to laser transformation hardening. In: Proceedings of the 3rd International Conference on Beam Technology. Düsseldorf: Deutscher Verlag für Schweißtechnik, pp.185-189.

    Ion, J.C., Moisio, T., Pedersen, T.F., Sørensen B. and Hansson C.M. (1989). Microstructural development in a laser-treated martensitic stainless steel. In: Proceedings of the 2nd Nordic Conference on Laser Materials Processing (NOLAMP 2). Luleå: Luleå University of Technology. pp.71-77.

    Ion, J.C., Thorstensen, B., Sørensen, B. and Hansson, C.M. (1988). Laser surface alloying of low carbon steel to improve corrosion properties. In: Hügel, H. ed. Proceedings of the 5th International Conference Lasers in Manufacturing (LIM-5). Bedford: IFS Publications. pp.127-136.

    Ion, J.C. and Easterling, K.E. (1983). Grain growth during welding. In: Proceedings of the 3rd Scandinavian Symposium in Materials Science, University of Oulu, Finland. pp.79-85.

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JOHN CHRISTOPHER
ION

UNIVERSITETSLEKTOR
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Malmö högskola
Teknik och samhälle
Institutionen för materialvetenskap och tillämpad matematik
WORK 205 06 Malmö Sverige Nordenskiöldsgatan 1
Postadress: 
  Malmö högskola  
Teknik och samhälle  
205 06 Malmö
  
  Besök: 
  Niagara, rum NI:Plan 7, Hus B, Nordenskiöldsgatan 1, Malmö

			
work 040-66 57704
www.mah.se
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