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List of non-journal publications

ROLF SANDSTRÖM, LIST OF NON-JOURNAL PAPERS

[254] J. Hagström, R. Sandström, J. Sarnet, Microstructure and crystallographic variations in different positions in OFP copper outer shell of canisters for spent nuclear fuel storage, in Copper Alloys 2022, Kupferverband, Düsseldorf, 2022, pp. 16-19,

 

[253] R. Sandström, J. He, Error Estimates in Extrapolation of Creep Rupture Data: Applied to an Austenitic Stainless Steel, ASME 2021 Pressure Vessels & Piping Conference, (2021).

 

[252] J. Zhang, R. Sandström, Influence of W in solid solution on the creep rate of nickel, in American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP, 2018.

[251] R. Wu, R. Sandstrom, Influence of local cold work hardening and notches on creep failure of Cu-OFP, Swedish Nuclear Waste Management Company, report R-15-04, 2018.

[250] F. Sui, R. Sandström, Fundamental modelling of mechanisms contributing to tertiary creep in copper at 215 and 250°C, in American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP, 2018.

[249] R. Sandstrom, S. Waqas Ahmad, K.T. Pasupuleti, M. Mahdavi Shahri, Slow strain rate tensile testing of friction stir welded Cu-OFP. Constitutive equations for creep, Swedish Nuclear Waste Management Company Report R-13-33, 2017.

[248] R. Sandström, The role of microstructure in the prediction of creep rupture of austenitic stainless steels, in ECCC Creep & Fracture Conference, 2017.

[247] J. He, R. Sandström, S. Vujic, Creep, low cycle fatigue and creep-fatigue properties of a modified HR3C, in Procedia Structural Integrity, 2016, pp. 871-878.

[246] J. He, R. Sandström, Brittle rupture of austenitic stainless steels due to creep cavitation, in Procedia Structural Integrity, 2016, pp. 863-870.

[245] R. Wu, R. Sandstrom, Effect of phosphorus content on creep properties of Cu-OFP at 75 and 125°C, Swerea KIMAB report 2015-102, 2015.

[244] R. Wu, J. Hagstrom, R. Sandstrom, Grain boundary sliding in phosphorus alloyed oxygen-free copper under creep, Swedish Nuclear Waste Management Company Report R-15-14, , 2015.

[243] J. He, R. Sandström, Growth of creep cavities in austenitic stainless steels, in 8th European Stainless Steel & Duplex Stainless Steel Conference, ASMET, 2015, pp. 561-570.

[242] O. Tassa, S. Matera, R. Sandström, M. Farooq, J. Zurek, Microstructure evolution after long term high temperature exposure of 22-25cr austenitic stainless steels in 10th Liège Conference on Materials for Advanced Power Engineering, 2014.

[241] R. Sandström, P.A. Korzhavyi, Modelling the contribution from solid solution hardening to the creep strength of austenitic stainless steels, in 10th Liège Conference on Materials for Advanced Power Engineering, 2014.

[240] R. Sandström, Creep strength in austenitic stainless steels, in ECCC2014 3rd International ECCC Conference, 2014.

[239] A.F. Miranda Pérez, R. Sandström, I. Calliari, F.A. Reyes Valdés, Sigma phase precipitation on welded SAF 2205 Duplex Stainless Steels after isothermal heat treatment, in Materials Research Society Symposium Proceedings, 2014, pp. 177-182.

[238] S. Vujic, C. Beal, C. Sommitsch, M. Farooq, R. Sandström, J. Zurek, Modelling and optimizing precipitation in creep resistant austenitic steel 25Cr-20Ni-Nb-N, in 7th Int. Conf. on Advances in Materials and Technology for Fossil Power Plants, 2013.

[237] R. Sandström, M. Farooq, J. Zurek, Basic models for creep deformation in stainless steels, in 9th International Conference on Creep and Fatigue at Elevated Temperatures, 2013.

[236] A. Martinsson, R. Sandstrom, C. Lilja, Hydrogen in oxygen-free, phosphorus-doped copper: charging techniques, hydrogen contents and modelling of hydrogen diffusion and depth profile, Swedish Nuclear Waste Management Company Report TR-13-09, 2013.

[235] K. Mannesson, H.C.M. Östling, R. Sandstrom, Influence of local cold work in creep failure of phosphorus doped oxygen free copper, Swedish Nuclear Waste Management Company Report R-13-32, 2013.

[234] L.Z. Jin, R. Sandstrom, Influences of load variations on the plastic deformation in friction stir welds and contour slits in copper canisters Swedish Nuclear Waste Management Company Report TR-13-25, 2013.

[233 R. Sandstrom, H. Magnusson, Basic model for creep deformation in 12Cr1MoV steels, in 12th International Conference on Creep and Fracture of Engineering Materials and Structures Japan Institute of Metals, 2012.

[232] R. Wu, F. Seitisleam, R. Sandstrom, Creep crack growth in phosphorus alloyed oxygen free copper, Swedish Nuclear Waste Management Company Report R-11-11, 2011.

[231] H.C.M. Andersson-Östling, R. Sandstrom, Effect of loading rate on creep of phosphorous doped copper, Swedish Nuclear Waste Management Company Report TR-11-09, 2011.

[230] R. Wu, L.Z. Jin, R. Sandström, Influence of multiaxial stresses on creep properties of phosphorus alloyed oxygen free copper, in American Society of Mechanical Engineers, PVP, 2010, pp. 1525-1532.

[229 H. Raiko, R. Sandstrom, H. Rydén, M. Johansson, Design analysis report for the canister, Swedish Nuclear Waste Management Company Report TR-10-28, 2010.

[228] J. Pilhagen, R. Sandström, Influence of lattice orientation on the fracture toughness of duplex stainless steel 2205, in Duplex World 2010, 2010.

[227] Å. Martinsson, H.C.M. Andersson-Östling, F. Seitisleam, R. Wu, R. Sandstrom, Creep testing of nodular iron at ambient and elevated temperatures, Swedish Nuclear Waste Management Company Report R-10-64, 2010.

[226] T. Kallgren, L.Z. Jin, R. Sandstrom, Flow modelling of friction stir welding using brass markers in copper, 2010.

[225] T. Kallgren, L.Z. Jin, R. Sandstrom, Influence of tool geometry on the material flow during friction stir welding of copper, 2010.

[224] J. Högberg, G. Chai, P. Kjellström, M. Boström, U. Forsberg, R. Sandström, Creep behavior of the newly developed advanced heat resistant austenitic stainless steel grade UNS S31035, in American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP, 2010, pp. 421-428.

[223] R. Wu, F. Seitisleam, R. Sandstrom, Creep properties of phosphorus alloyed oxygen free copper under multiaxial stress state, Swedish Nuclear Waste Management Company Report R-09-41, 2009.

[222] R. Sandstrom, J. Hallgren, G. Burman, Stress strain flow curves for Cu-OFP, Swedish Nuclear Waste Management Company Report R-09-14, 2009.

[221] Å. Martinsson, R. Wu, R. Sandstrom, Influence of hydrogen on mechanical properties of nodular cast iron, Swerea KIMAB, Report KIMAB-2009-118, 2009.

[220] L.Z. Jin, R. Sandström, Modified Armstrong–Frederick relation for handling back stresses in FEM computations, in 2nd international ECCC conference. Creep & fracture in high temperature components–design & life assessment issues, S.R.H. I A Shibli (Ed.), 2009, pp. 836–847.

[219] H.C.M. Andersson-Östling, R. Sandstrom, Survey of creep properties of copper intended for nuclear waste disposal, Swedish Nuclear Waste Management Company Report TR-09-32, 2009.

[218] R. Sandstrom, H.C.M. Andersson, Creep during power-law breakdown in phosphorus alloyed copper, in 2007 Proceedings of the ASME Pressure Vessels and Piping Conference - 8th International Conference on Creep and Fatigue at Elevated Temperatures - CREEP8, 2008, pp. 419-426.

[217] H. Magnusson, R. Sandstrom, Modelling of the influence of laves phase on the creep properties in 9 % Cr steels, in 2007 Proceedings of the ASME Pressure Vessels and Piping Conference - 8th International Conference on Creep and Fatigue at Elevated Temperatures - CREEP8, 2008, pp. 519-526.

[216] P. Langenberg, R. Sandstrom, A. KIttel, Extension of the applicationlimittions for unfirede pressure vessels and piping in EN13445 and EN13480 based on frachture mechanics, in Zuverlässigkeit von Bauteilen durch bruchmechanische Bewertung: Regelwerke, Anwendungen und Trends, Deutscher Verband für Materialforschung und -prüfung 2008.

[215] T. Kallgren, L.Z. Jin, R. Sandstrom, Material Flow during Friction Stir Welding of Copper, in 7th Int. Symp. on Friction Stir Welding, 2008.

[214] H. Sieurin, E.M. Westin, R. Sandstrom, M. Liljas, Fracture toughness of welded commercial duplex stainless steel, in Duplex 2007 2007.

[213] R. Sandström, R. Wu, Origin of the extra low creep ductility of copper without phosphorus, Swedish Nuclear Waste Management Company Report TR-07-02, 2007.

[212] R. Sandstrom, H. Sieurin, E.M. Westin, P. Langenberg, Design against brittle failure for duplex stainless steels, in Duplex 2007 2007.

[211] L.-Z. Jin, R. Sandström, Secondary creep of copper canister under external pressure, 2007.

[210] H.C.M. Andersson, F. Seitisleam, R. Sandström, Creep testing and creep loading experiments on friction stir welds in copper at 75 °C, Swedish Nuclear Waste Management Company Report TR-07-08, 2007.

[209] H. Magnusson, R. Sandstrom, Creep strain modelling of particle strengthened material, in Proceedings - ECCC Creep Conference: Creep and Fracture in High Temperature Components - Design and Life Assessment Issues, 2005, pp. 510.

[208] S.R. Holdsworth, M. Askins, A. Baker, E. Gariboldi, S. Holmstrom, A. Klenk, M. Ringel, G. Merckling, R. Sandstrom, M. Schwienheer, S. Spigarelli, Factors influencing creep model equation selection, in Proceedings - ECCC Creep Conference: Creep and Fracture in High Temperature Components - Design and Life Assessment Issues, 2005, pp. 380-393.

[207] H.C.M. Andersson, F. Seitisleam, R. Sandström, Creep testing of thick-wall copper electron beam and friction stir welds at 75, 125 and 175ºC, Swedish Nuclear Waste Management Company Report TR-05-08, 2005.

[206] H. Sieurin, R. Sandstrom, Performance of duplex stainless steel with special reference to fracture toughness properties, in Europ. Symp on pressure equipment ESOPE 2004, 2004.

[205] R. Sandstrom, P. Langenberg, G. Baylac, P. Bocquet, A. Diamantoudis, O. Lagerqvist, Design by analysis of high strength steel pressure vessels: Input of Ecopress, in Europ. Symp on pressure equipment ESOPE 2004, 2004.

[204] P. Langenberg, R. Sandstrom, Proposal for the modification of the existing safety concept against brittle fracture for pressure vessel steels after EN 13445; part 2;, in Fortschritte der Bruch- und Schädigungsmechanik, Deutscher Verband für Materialforschung und -prüfung 2004.

[203] T. Kallgren, R. Sandstrom, Microstructure development in copper welded by the FSW-process, in Materials Research Society Symposium Proceedings, 2004, pp. 483-488.

[202] T. Kallgren, L.Z. Jin, R. Sandstrom, Finite element modelling of temperature distribution in friction stir welding process and its influence on distortion of copper canisters, in Materials Research Society Symposium Proceedings, 2004, pp. 57-62.

[201] T. Kallgren, L.-Z. Jin, R. Sandstrom, Finite Element Modelling of Friction Stir Welding on Copper Canister, in 5th International Friction Stir Welding symposium 2004.

[200] M. Ericsson, R. Sandstrom, Fatigue of FSW overlap joints in aluminium welded with different tool designs, in 5th int. symp. Friction stir welding, 2004.

[199] H.C.M. Andersson, F. Seitisleam, R. Sandstrom, Creep testing of thick-wall copper electron beam and friction stir welds, in Materials Research Society Symposium Proceedings, 2004, pp. 51-56.

[198] Z. Y., Sandström, Rolf, The effectt of calcination on the reduction of chemically synthesized W-Co precursor to nanostructured W-Co: Reduction rate study, 2003.

[197] H. Sieurin, R. Sandstrom, P. Langenberg, Crack detection performance and other assumptions for implementation in a model for avoidance of brittle fracture in pressure vessel steels, in 29th MPA Seminar, , 2003.

[196] H. Sieurin, R. Sandstrom, C. Ericsson, Toughness and other mechanical properties of the duplex stainless steel 2205, in 29th MPA Seminar, , 2003.

[195] R. Sandstrom, H.C.M. Andersson, Modelling of hysteresis loops during thermomechanical fatigue, in ASTM Special Technical Publication, 2003, pp. 31-44.

[194] P. Langenberg, G. Baylac, P. Bocquet, A. Diamantoudis, D. Porter, R. Sandstrom, P. Castello, ECOPRESS - Economical and safe design of pressure vessels applying new modern steels, Eurpean Commision, 2003.

[193] R. Wu, R. Sandström, Study of creep cavity growth for power plant lifetime assessment, Swedish Institute for Metals Research, report IM-2001-004, 2001.

[192] R. Sandström, The role of creep damage during thermo-mechanical and low cycle fatigue of the austenitic stainless steel 253MA, Swedish Institute for Metals Research, 2001, pp. 25.

[191] L.-Z. Jin, R. Sandström, Influence of ageing on low cycle fatigue of an austenitic stainless steel 21Cr-11Ni-2Si steels, 2001.

[190] H.C.M. Andersson, F. Seitisleam, R. Sandström, Influence of phosphorus on creep in pure copper, Swedish Nuclear Waste Management Company Report TR-01-25, 2001, pp. 41-46.

[189] X.X. Yao, R. Sandström, Study of creep behaviour in P-doped copper with slow strain rate tensile tests, Swedish Nuclear Waste Management Company Report TR-00-09, AMT-195, 2000.

[188] R. Wu, R. Sandstrom, F. Seitisleam, Creep properties of 9%CrMoV (P91) steel weldments at 600 C, 2000.

[187] L. Linde, R. Sandstrom, Thermal fatigue of a heat resistant austenitic stainless steel, in Parsons 2000, 2000.

[186] D. Debord, A. Lofti, L. Linde, R. Sandström, Low cycle fatigue and thermo-mechanical fatigue of the ferritic ODS Fe-Cr-Al alloy PM2000, Swedish Institute for Metals Research, Report IM-2000-027, 2000.

[185] X.X. Yao, R. Sandstrom, Strain-controlled fatigue of a braze-clad 3005LL alloy, in Fatigue 99, 1999.

[184] R. Wu, F. Seitisleam, R. Sandström, Creep crack growth in a carbon-manganese steel at 320°C- 360°C, Swedish Institute for Metals Research, report IM-1999-514, 1999.

[183] R. Wu, R. Sandström, Creep rupture in austenitic stainless steels and their weldments, Swedish Institute for Metals Research, report IM-1999-1, 1999.

[182] L.-Z. Jin, R. Sandström, Comparison of property data between different standards for aluminium casting alloys, 1999.

[181] H. Andersson, F. Seitisleam, R. Sandström, Influence of phosphorous and sulphur as well as grain size on creep in pure copper, Swedish Nuclear Waste Management Company Report TR-99-39, 1999.

[180] H. Andersson, R. Sandstrom, P. Segle, P. Andersson, Creep crack growth in ex-service weld metal of 0.5CrMoV, in Cape 99, , 1999.

[179] X. Yao, R. Sandström, T. Stenqvist, Low cycle fatigue testing on braze clad AA3005LL at room and elevated temperatures, 1998.

[178] X. Yao, R. Sandström, Tensile tests at room and elevated temperatures of clad Al-Mn-alloys, 1998.

[177] R. Wu, J. Storesund, R. Sandström, Surface replication and qualification of operator, Swedish Institute for Metals Research, report IM-3580, 1998.

[176] R. Wu, F. Seitisleam, R. Sandstrom, Creep crack growth in a reactor pressure vessel steel at 360°C, in BALTICA IV, Helsinki-Stockholm, 7-9 Sept. 1998, Technical Research Centre of Finland, Vuorimiehentie 5, P.O. Box 2000, Espoo, 02044, Finland, 1998.

[175] R. Wu, F. Seitisleam, R. Sandstrom, Creep crack growth in C-Mn reactor pressure vessel steels at 360°C, in Högtemperaturmaterial, Swedis Institute for Metalls Research, 1998.

[174] R. Wu, R. Sandström, F. Seitisleam, J. Storesund, Investigation of new and service-exposed weldments of 2.25 CrlMo with miniature creep specimens, Swedish Institute for Metals Research, report IM-3579, 1998.

[173] R. Sandstrom, Modelling of creep damage development in ferritic steels, in BALTICA IV, Helsinki-Stockholm, 7-9 Sept. 1998, Technical Research Centre of Finland, Vuorimiehentie 5, P.O. Box 2000, Espoo, 02044, Finland, 31 Mechanical Properties, 1998, pp. 587-597.

[172] L. Lindé, R. Sandström, R. Gommans, M.W. Spindler, A. Fairman, Evaluation of creep rupture data for the new european standard for stainless steels– Edition  2 (September 1998), Swedish Institute for Metals Research, report IM-3642, 1998.

[171] L. Linde, R. Sandström, Creep rupture of the 21Cr 11Ni Si N REM. stainless steel 253MA - data collation and assessment, Swedish Institute for Metals Research, report IM-3572, 1998.

[170] J. Hagstrom, R. Sandstrom, Static and dynamic properties of joints in thin-walled aluminium extrusions, welded with different methods, in ICAA-6: 6th International Conference on Aluminium Alloys, Toyohashi, Japan, 5-10 Japan 1998, pp. 1447-1452.

[169] H. Engström, R. Sandström, Strain controlled fatigue testing of braze clad AA3005 at 20 and 200ºC, 1998.

[168] W. Tang, R. Sandstrom, Some aspects on TiNi SMA properties based on the calculation of Ti-Ni phase diagram, in International Conference on Shape Memory and Superelasticity: Engineering and Biomedical Applications, 1997.

[167] J. Komenda, R. Sandström, Application of image analysis in quantitative metallography, in Swedish Symposium on Image Analysis, Swedish Institute for Metals Research, report IM-3046, 1997.

[166] J. Hagström, R. Sandström, Fatigue properties of welded jointd in extruded AlMgSi-alloys, 1997.

[165] R. Wu, R. Sandström, Creep cavity growth in high temperature power plant materials, 1996.

[164] L. Linde, R. Sandstrom, Assessment of ECISS draft standard for derivation of high temperature proof strength values, 1996, pp. 40.

[163] L. Linde, R. Sandstrom, Assessment of yield strength data at elevated temperature by two modified ISO 2605/III methods, 1996, pp. 28.

[162] J. Lindblom, L. Linde, P.J. Henderson, R. Sandstrom, Low cycle fatigue behavior of welded joints in an austenitic stainless steel, in Fatigue '96: Sixth International Fatigue Congress. Vol. II, Berlin, Germany, 6-10 May 1996, Elsevier Science Inc., 655 Avenue of the Americas, New York, NY 10010, USA

[161] J. Storesund, R. Wu, R. Sandström, Creep damage development in weldments in a main steam pipe system made of 0.5Cr0.5Mo0.25V and 2.25Cr1Mo steels, in Int. conf. on plant condition & life management., VTI-SYMP-150, pp 119-134 (1995), 1995.

[160] J. Storesund, N. Tada, R. Sandström, On the notch sensitivity of creep failure below the limit temperaturre, in 21st MPA-Seminar, Oct 5 and 6, 1995, 1995.

[159] P. Ólafsson, R. Sandström, Å. Karlsson, Electrical Conductivity of Aluminium-alloys, in 5th Int. Conf. Aluminium Alloys, Grenoble (1996), 1995.

[158] P. Ólafsson, R. Sandström, B. Jansson, Calculations of electrical resistivity of AlCu-alloys, 1995.

[157] L. Lindé, R. Sandström, R. Gommans, M.W. Spindler, Evaluation of creep rupture data for the new european standard for stainless steels, Swedish Institute for Metals Research, report IM-3226, 1995.

[156] J. Hagström, R. Sandström, Fatigue properties of welded T-joints in thin-walled aluminium profiles, in 5th Int. conf on Aluminium alloys, Grenoble (1996), 1995.

[155] J. Hagström, R. Sandström, Load bearing capacity and stress distribution in welded components of thin-walled aluminium square tube profiles, 1995.

[154] W. Tang, R. Sandstrom, On the material parameters in the constitutive relations for shape memory alloys, in Shape Memory Materials '94, Beijing, China, 25-28 Sept. 1994

[153] R. Sandström, S. Schultz, 100000 Hours Creep Rupture Strength for Aluminium Alloys, 1994.

[152] Sandström, Rolf, Criteria for materials selection. Introduction to materials selection, 1994.

[151] P. Ólafsson, R. Sandström, Å. Karlsson, Comparison of Experimental, Calculated and Industrial Values for Electrical and Thermal Conductivity of Al-alloys, 1994.

[150] V.A. Likhachev, R. Sandstrom, W. Tang, J.J. Cederstrom, Shape memory alloy database systems, in International Conference on Shape Memory and Superelasticity: Engineering and Biomedical Applications, 1994.

[149] J. Komenda, R. Sandstrom, Quantitative characterization of weld simulated structures in duplex stainless steel SAF 2205, in IV International Conference, Stereology and image analysis in materials science, Swedish Institute for Metals Research, report IM-3133, 1994.

[148] L.Z. Jin, R. Sandström, Machinability Data for the Purpose of Materials Selection, in Int. Conf on The Bahaviour o Materials in Machining, The Institute of Materials, (1994), pp 251-271 (Same as AMT-113), 1994.

[147] Jin, Lai-Zhe, Sandström, Rolf, Minimum crevice corrosion temperatures of Cr-Ni-Mo-N alloys in natural seawater, 1994.

[146] J. Hagström, R. Sandström, Use of Incomplete Sets of Materials Property Data for Materials Selection Purposes, 1994.

[145] H. Engström, R. Sandström, Combined Materials and Shape Optimisation of an Aluminium Car Bumper, 1994.

[144] H. Engström, R. Sandström, Combined Materials and Shape Optimisation of an Al-Truck Floor Profile, 1994.

[143] J. Eliasson, R. Sandstrom, The role of the value of weight savings in the use of aluminum matrix composites, in The 4th International Conference on Aluminum Alloys: Their Physical and Mechanical Properties. Vol. II, Atlanta, GA, USA, 11-16 Sept. 1994

[142] J. Eliasson, R. Sandstrom, Analysis of the coherence of published data on aluminum matrix composites, 1994.

[141] R. Wu, R. Sandstrom, Creep Cavity Growth in high temperature power plant materials, 1993.

[140] S.T. Tu, R. Sandstrom, Numerical Simulation of Creep Exhaustion of Weldments and Some Design Considerations, in Creep and Fracture of Engineering Materials and Structures, Swansea, UK, 28 Mar.-2 Apr. 1993, The Institute of Materials, 1 Carlton House Terrace, London, SW1Y 5DB, UK

[139] W. Tang, R. Sandström, On the material parameters in the constitutive relations for shape memory alloys, in Symposium on Why,When and How to use shape memeory alloys, Saltsjöbaden (1993), Beijing (1994), 1993.

[138] W. Tang, R. Sandström, Integration and Analysis of Property Data on Shape Memory Alloys for Engineering Design, in 4th Int. Symp on Computerization and Use of Materials Property Data (1993), 1993.

[137] J. Storesund, F. Seitisleam, J. Lindblom, R. Sandstrom, Spricktillväxt i HAZ hos tryckkärlsstålet BS 1501-271 vid 320 C, Swedish Institute for Metals Research, report IM-2957, 1993.

[136] S. Schultz, R. Sandström, Design Against Brittle Failure in Cast Irons and Steels, 1993.

[135] R. Sandström, S.T. Tu, The Effect of Multiaxility on the Evaluation of Weldment Strength Reduction Factors in High Temperature Creep, 1993.

[134] J. Komenda, R. Sandström, Predictions of the hardenability of boron treated steels based on the multiple linear regression analysis, Swedish Institute for Metals Research, report IM-3046, 1993.

[133] J. Eliasson, R. Sandström, Optimisation and Optimal Use of Aluminium Matrix Composites, 1993.

[132] S.T. Tu, R. Sandström, A study of creep damage localisation in weldments using a continuum damage approach, 1992.

[131] W. Tang, R. Sandström, Influence of Cycling on TiNi Shape Memory Alloy Properties, 1992.

[130] J. Storesund, N. Tada, R. Sandström, Notch sensitivity of creep failure below the limit temperature, Swedish Institute for Metals Research, report IM-2961, 1992.

[129] R. Sandstrom, R. Wu, J. Storesund, Through Thickness Distribution of Creep Damage in a Service Exposed Double T-Joint of 0.5Cr0.5Mo0.25V Steel, in Pressure Vessel Technology. Vol. 1: Design, Analysis, Materials, Dusseldorf, Germany, 31 May-5 June 1992, Verband Technischen Uberwachungs-Vereine e.V.

[128] R. Sandström, P. Widestig, Evaluation of High Temperature Yield andTensile Strengths of Aluminium Alloys, 1992.

[127] R. Sandstrom, J. Lindblom, Critical Assessment of Evaluation Methods for Strength Data, in Pressure Vessel Technology. Vol. 2, Dusseldorf, Germany, 31 May-5 June 1992, Verband der Technischen Uberwachungs-Vereine e.V.

[126] R. Sandstrom, Harmonisation of weldability data for aluminum alloys, in International Conference on Aluminium Weldments. 5th Inalco '92, Munich, Germany, 27-29 Apr. 1992, Aluminium Zentrale, Konigsallee 30, P.O. Box 101262, Dusseldorf, D-4000, Germany, 55 Joining, 1992, pp. 5.3.1-5.3.14.

[125] R. Sandstrom, Harmonisation of weldability data for aluminum alloys, 1992.

[124] L. Linde, R. Sandstrom, Evaluation of Elevated Temperature Property Data for Stainless Steels in the European Standard, in Applications of Stainless Steel '92. Vol. 2, Stockholm, Sweden, 9-11 June 1992, Jernkontoret

[123] L. Linde, R. Sandström, Evaluation of elevated temperature property data for the new european stainless steel standard, Swedish Institute for Metals Research, report IM-2858, 1992.

[122] J. Lindblom, L. Linde, P.J. Henderson, R. Sandstrom, Low Cycle Fatigue of Welded Joints in a Low Alloy Ferritic Steel at 565 deg C, in Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials--3, Berlin, Germany, 7-11 Sept. 1992, Elsevier

[121] L.Z. Jin, R. Sandström, H. Eriksson, R. Quarfort, Evaluation of Uniform Corrosion Data for Stainless Steels, 1992.

[120] L.Z. Jin, R. Sandstrom, SSSelect--an Engineering Database for Stainless Steels, in Applications of Stainless Steel '92. Vol. 2,  (1992), pp 822-831, Jernkontoret, Kungstradgardsgatan 10, Box 1721, S-111 87 Stockholm, Sweden, 34 Chemical and Electrochemical Properties, 1992, pp. 822-831.

[119] P.J. Henderson, B.G. Ivarsson, R. Sandstrom, Thermo-Mechanical Fatigue of the Austenitic Stainless Steel 253 MA, in Applications of Stainless Steel '92. Vol. 1, Stockholm, Sweden, 9-11 June 1992, Jernkontoret, Kungstradgardsgatan 10, Box 1721, S-111 87 Stockholm, Sweden, 253MA, Fe-0.092C-20.83Cr-10.83Ni Austenitic stainless steels

[118] J. Hagstrom, R. Sandstrom, Pre-selection of material groups using a material property database system, in The 3rd International Conference on aluminium alloys, 1992.

[117] H. Engstrom, R. Sandstrom, Evaluation of High Temperatures Strength Values for Aluminium Alloys, in Third International Conference on Aluminium Alloys: Their Physical and Mechanical Properties, Trondheim, Norway, 22-26 June 1992, 3003; 6061

[116] J. Eliasson, R. Sandström, Applications of Al-Matrix Composites, 1992.

[115] R. WU, J. Storesund, R. Sandström, E. van Walden, Creep properties of 1CrO.5Mo steel welded joints with controlled microstructures in the heat affected zone, Swedish Institute for Metals Research, report IM-2706, 1991.

[114] R. Wu, P. Henderson, R. Sandström, B. Ivarsson, The effect of manufacturing route on the creep strength and mircostructure of 12% Cr steels, in Materials for combined-cycle power plant, Swedish Institute for Metals Research, report IM-2715, 1991.

[113] S.T. Tu, R. Sandström, The Evaluation of Weldment Creep Reduction Factors by Experimental and Numerical Simulation, in Workshop on Modelling High Temperature Structture Performance of Engineering Materials, Basingstoke (1991), 1991.

[112] S.T. Tu, R. Sandström, Finite element simulation of the creep behaviour of butt welded AISI 316 joints steel tubes, 1991.

[111] N. Tada, J. Storesund, R. Sandström, Creep Failure of an Alloy Steel ASTM A508 below its Limit Temperature - Notch Sensitivity, 1991.

[110] J. Storesund, R. Sandstrom, Bildning av återvärmningsprickor hos tryckkärlsstålet BS - 1501-271, Swedish Institute for Metals Research, report IM-2783, 1991.

[109] J. Storesund, W. Rui, R. Sandstrom, E. von Walden, Control of the Development of Residual Stresses and Heat Affected Zone Microstructure During Welding of Low Alloy Steels and Influence on Stress Relief Cracking, Swedish Institute for Metals Research, report IM-4002, 1991.

[108] R. Sandström, J. Lindblom, Critical assessment of evaluation methods for strength data, in, Swedish Institute for Metals Research, report IM-2782, 1991.

[107] R. Sandstrom, A. Armann, Aluselect-MMC, Property Database for Aluminium Matrix Composites, in Metal Matrix Composites--Processing, Microstructure and Properties, Roskilde, Denmark, 2-6 Sept. 1991, Riso National Laboratory, Materials Department, P.O. Box 49, DK-4000 Roskilde, Denmark

[106] R. Sandström, Control Area Diagrams in Materials Optimisation to be published, 1991.

[105] J. Lindblom, L. Lindé, P. Henderson, R. Sandström, Low cycle fatigue of welded joints in AISI type 316 austenitic stainless steel, Swedish Institute for Metals Research, report IM-2699, 1991.

[104] L.Z. Jin, R. Sandström, Weldability Data Applied to Materials Selection, 1991.

[103] L.-Z. Jin, R. Sandström, Machinability Data for Materials Selection, 1991.

[102] P. Henederson, R. Sandström, Fatigue and creep of the austenitic stainless steel 253 MA, in Materials for combined-cycle power palnt, Swedish Institute for Metals Research, report IM-2716, 1991.

[101] J. Hagström, R. Sandström, MATEDS (MAterials Technology EDucation System): A System for Materials Science Education and Materials Selection, in 3rd Int. Symp. on Computerization and Use of Materials Property Data, Cambridge, England (1991), 1991.

[100] A. From, R. Sandstrom, Advanced image analysis of grain ant two phase structures using GOP 300, Swedish Institute for Metals Research, report IM-2767, 1991.

[99] A. From, R. Sandström, Quantitative characterisation of porosity and its influence on tatigue strength in sintered high strength steels, Swedish Institute for Metals Research, report IM-2738, 1991.

[98] A. From, R. Sandström, Metallografiska tillämpningar för GOP 300, Swedish Institute for Metals Research, report IM-2768, 1991.

[97] S. Zajac, R. Sandström, The influence of Mn additions on the hot workability of aluminium alloy 6005, Swedish Institute for Metals Research, report IM-2633, 1990.

[96] P. Widestig, R. Sandström, A Method to Predict High Temperature Yield or Ultimate Tensile Stresses for Aluminium Alloys at Various Prior Exposure Times, 1990.

[95] R. Sandstrom, E. Moosavi, Q. Feixia, Aluselect Manual F1.1, 1990.

[94] R. Sandström, Evaluation of materials property data for design -  A European Perspective, Swedish Institute for Metals Research, report IM-2558, 1990.

[93] R. Sandström, Harmonisaton of Fatigue Endurance Data for Aluminium Alloys, 1990.

[92] J. Lindblom, R. Sandström, L. Linde, P. Henderson, Crack initiation and propagation in welded joints during low cycle fatigue of a low alloy ferritic steel, Swedish Institute for Metals Research, report IM-2646, 1990.

[91] L.-Z. Jin, R. Sandström, Hardenability Data for Materials Selection Purpose, 1990.

[90] A. Årmann, R. Sandström, Property Database for Aluminium Matrix Composites, 1990.

[89] R. Wu, J. Storesund, R. Sandström, Creep testing of 2.25Cr1Mo steel from a service-exposed header, Swedish Institute for Metals Research, report IM-2542, 1989.

[88] R. Wu, J. Storesund, R. Sandström, Creep testing of 2.25Cr1Mo steel from a service-exposed header, Swedish Institute for Metals Research, report IM-2542, 1989.

[87] R. Sandstrom, G. Östberg, Creep failure below the limit temperature, Swedish Institute for Metals Research, report IM-2517, 1989.

[86] R. Sandström, Faktorer som styr användningen av konstruktionsmaterial, 1989.

[85] J. Lindblom, B. Ivarsson, R. Sandström, E. von Walden, Krypbrotthållfasthet hos pulvermetallurgiskt tilverkade austenitiska rostfria stål, Swedish Institute for Metals Research, report IM-2438, 1989.

[84] L.-Z. Jin, R. Sandström, L. Rydén, M. Sjölander, G. Mälhammar, P. Johansson, The SMI Concept: Basic Representation of Materials Information, 1989.

[83] L.-Z. Jin, R. Sandström, Weldability Data for Materials Selection Purposes, 1989.

[82] J. Storesund, R. Sandstrom, Comparison of creep cavitation in laboratory tests and power plants, in Int. Conf. Life Life assessment and Extension, Haag (1988), pp. 75-80.

[81] J. Storesund, R. Sandstrom, Influence of creep damage on low cycle fatigue of a 1Cr 0.5Mo steel, Swerea KIMAB report IM-2321, 1988.

[80] R. Sandström, L. Lundberg, P. Schyllberg, B. Grahn, The Application of a Computerized Materials Database - CMD, 1988.

[79] R. Sandström, Minimum Usage Temperatures for Ferritic Steels with Respect to Brittle Failure, in 6th Conf. on Pressure Vessel Technology, Beijing, Part II: Materials and Processes (1988), pp 937-951, 1988.

[78] R. Sandström, Usage of Databases in Materials Selection, in Conf. on Computerized Materials Property Databases. The Designers´ New Tool in Selecting Materials, Stockholm, IVA Report 340 (1988), pp 105-141, 1988.

[77] R. Sandström, New Principles for Systematic Material Selection Using Merit Parameters, in Conf. on Modern Design Principles, Tapir, Trondheim (1988), pp 55-74, 1988.

[76] R.S. L-Z Jin, Machinability Data for Materials Selection, 1988.

[75] B. Ivarsson, J.-O. Österberg, R. Sandstrom, Creep properties of welded joints in copper canisters for nuclear waste containment, in Mat. Res. Soc. Symp. Proc. Vol. 127. , Materials Research Society, 1989, 1988, pp. 397-402.

[74] A. From, R. Sandstrom, Image operations in automatic quantitative metallography, Swedish Institute for Metals Research, report IM-2374, 1988.

[73] L.-L. Carlsson, R. Sandström, Cold Formability Data for Materials Selection Purposes, 1988.

[72] K. Xanthoupoulos, R. Sandström, Influence of Dent Resistance on the Selection of Materials for Auto Body Panels (1987), 1987.

[71] R. Sandstrom, M. Yu, Factors Controlling the Creep Properties of the Austenitic Stainless Steel 253MA, in Third International Conference on Creep and Fracture of Engineering Materials and Structures.

[70] R. Sandström, Utvärdering av egenskapsdata, in IVAs konferens Nya material i produktionen, Företagens strategi för införande av ny teknik, 1987.

[69] R. Sandström, Systematisk urval av aluminiumlegeringar, in Skandinaviska Aluminiumdagen, Göteborg (1987), 1987.

[68] R. Sandström, Minimum Usage Temperature for Ferritic Steels, 1987.

[67] J.-O. Nilsson, R. Sandström, Influence of Temperature and Microstructure on Creep-fatigue of Alloy 800H, 1987.

[66] S.E. Stenfors, J. Storesun, R. Sandstrom, Influence of heat treatment and composition of the mechanical properties and machinability of austempered ductile cast iron, in 2nd Int. Conf. on Austempered Ductile Iron 1986, pp. 227-236.

[65] R. Sandström, Systematic selection of materials in light weight design, in IV Scand. Symp. Materials Science, Trondheim, 1986, pp. 255-268.

[64] R. Sandstrom, Influence of cerium on creep properties of the austenitic stainles steel 253 MA IM-2015, Swedish Institute for Metals Research, report IM-2431, 1986.

[63] B. lvarsson, R. Sandstrom, Metallproblem hos tuber i fluidiserade bättar, Swedish Institute for Metals Research, report IM-2100, 1986.

[62] G. Engberg, B. Ivarsson, R. Sandström, P/M 12%Cr Steels - creep properties and morphology, distribution and composition of precipitates, Swedish Institute for Metals Research, report IM-2152, 1986.

[61] S.-E. Stenfors, R. Sandström, Hardness and Microstructure of Bainitic Nodular Irons, 1985.

[60] C. Song, R. Sandstrom, Microstructure of the austenitic stainless steels 253MA after creep. Transmission electron microscopy, Swedish Institute for Metals Research, report IM-2053, 1985.

[59] R. Sandström, A. Thuvander, Stresses in tool bits exposed to thermal cycling, Swedish Institute for Metals Research, report IM-2020, 1985.

[58] R. Sandström, A.-L. Nilsson, Creep rupture data for aluminium alloys, 1985.

[57] R. Sandström, B. Grahn, Property Data for Materials Selection, 1985.

[56] R. Sandström, Thermal stresses in tool bits during milling, Swedish Institute for Metals Research, report IM-1971, 1985.

[55] R. Sandström, An approach to systematic materials selection, 1985.

[54] R. Sandström, B. Ivarsson, Inverkan och spridningen i materialdata på dimensioneringsvärden för varmsträckgränser, in Konf. Säkrare materialval vid införandet av nya material, Linköping (1984), 1984.

[53] R. Sandstrom, B. Ivarsson, Inverkan av spriningen i materialdata på dimmensionseringsvärden för värmesträckgränsen, Swerea KIMAB report IM-1889, MT-3, 1984.

[52] R. Sandström, Analytiska metoder för materialva,l in Konf. Säkrare materialval vid inforandet av nya material, Linköping (1994), 1984.

[51] J. Nilsson, C. Bengtsson, R. Sandstrom, The effect of prior low cycle fatigue on the creep properties of type 321 stainless steel at 600°C, Swerea KIMAB report IM-1914, 1984.

[50] H. Chandrasekaran, S. Svensson, R. Sandstrom, Micro-Chipping and tooth fracture during power hack sawing, 1984.

[49] R. Sandström, A. Williams, M. Coleman, Prediction of Creep Rupture Using Strain to Failure Criteria. Application to Buttwelded Tubes, 1983.

[48] R. Sandström, Utvecklingen inom tillämpad materialteknologi, in Konf. Metalliska material i verkstadsindustrin, Jönköping (1983), 1983.

[47] R. Sandstrom, Assessment of creep damage in CrMo (V) steels - A litterature review, Swerea KIMAB report IM-1797, 1983.

[46] R. Sandstrom, B. Grahn, Influence of post weld heat treatment on brittle failure, in Stresses and deformation in welded constructions, 1982, pp. 103-111.

[45] R. Sandstrom, Thermal stresses in tool bits during milling, Swerea KIMAB report IM-1971, 1982.

[44] K. Olsson, R. Sandstrom, A. Melander, Inverkan av kvävelegering på mekaniska och teknologiska egenskaper hos tråd av austenitiskt rostfritt fjäderstål, Swerea KIMAB report IM-1708, 1982.

[43] S. Hertzman, R. Sandstrom, An experimental ant theoretical study on the deformation behaviour of nonmetallic inclusions in steel, Swerea KIMAB report IM-1776, 1982.

[42] T. Gustafsson, R. Sandstrom, B. Johansson, Mekaniska egenskaper hos stränggjutet stål i temperaturintervallet 900 C-Tsolidus, Swerea KIMAB report IM-1732, 1982.

[41] H. Chandrasekaran, S. Svensson, R. Sandstrom, Stress state and tooth chipping during power hacksawing of an austenitic stainless steel, Swerea KIMAB report IM-1596, 1982.

[40] C. Bengtsson, R. Sandstrom, Analysis of creep strain data for 12% Cr-steels, Swerea KIMAB report IM-1693, 1982.

[39] R. Sandstrom, K. Malen, R. Ottenberg, Prediction of stress relaxation under multiaxial stresses. Application to the reactor pressure vessel steel A533B, Swerea KIMAB report IM-1596, 1981.

[38] R. Sandstrom, B. Lehtinen, Användning av avancerad ytanalys inom metallurgisk forskning, Swerea KIMAB report IM-1554, 1981.

[37] R. Sandstrom, L. Karlsson, Transfer of Two Dimensional Inclusion Size Distributions to Three Dimensions, in Swedish symposium on non-metallic inclusions, 1981.

[36] H. Nordberg, R. Sandstrom, Swedish Symposium on Non-Metallic Inclusions in Steel, in, 72 Special Publications, 1981.

[35] B. Ivarsson, R. Sandstrom, Assessment of elevated temperature strength data for the determination of design stress values, in, 1981, pp. 201-207.

[34] B. Ivarsson, R. Sandström, Creep of butt-welded tubes, in Creep and fracture of engineering materials and structures, Swedish Institute for Metals Research, report IM-1537, 1981.

[33] S. Hertzman, R. Sandstrom, Method for automatic assessment of carbide size distributions in crerep deformed 12% CrMoVW, mo and CrMo-steels, Swedish Institute for Metals Research, Report IM-1631, 1981.

[32] H. Grahn, R. Sandstrom, Post weld heat treatment of creep resistant low alloy Cr Mo (V) Steels, Swerea KIMAB report IM-1586, 1981.

[31] H. Grahn, R. Sandstrom, Stress relief heat treatment of C-Mn and Low alloy steels, Swerea KIMAB report IM-1512, 1981.

[30] R. Sandstrom, A. Kondyr, Model for tertiary-creep in Mo and CrMo-steels, in Proceedings - Computer Networking Symposium, 1980, pp. 275-284.

[29] R. Sandstrom, B. Ivarsson, Creep in butt-welded tubes of cold worked aisi 316 with internal pressure, in Proceedings - Computer Networking Symposium, 1980, pp. 223-231.

[28] R. Sandstrom, Criteria for Nucleation of Recrystallization Around Particles, in Risö Int. Symp on Recrystallisation and grain growth of multiphase and particle containing materials, 12 Crystal Properties, 1980, pp. 45-49.

[27] R. Sandstrom, Recrystallization in the Presence of a Distribution of Coarse Particles, in Risö Int. Symp on Recrystallisation and grain growth of multiphase and particle containing materials, 1980, pp. 121-125.

[26] R. Otterberg, R. Sandstrom, K. Malen, Stress Relaxation of the Pressure Vessel Steel A533B Under Multiaxial Stresses, in, 1980.

[25] R. Otterberg, R. Sandstrom, K. Malen, Stress Relaxation of the Pressure Vessel Steel A533B Under Multiaxial Stresses, 1980.

[24] B. Ivarsson, R. Sandstrom, Calculated methods of determining the rupture-life of butt-welded tubes, in Engineering aspects of creep, Institution of Mechanical Engineers, Conference Publications, 1980, pp. 101-106.

[23] B. Ivarsson, R. Sandstrom, Assessment of elevated temperature strength data for the determination of design stress values, in Computers in materials technology, T. Ericsson (Ed.), Pergamon Press, 1980, pp. 201-207.

[22] B. Ahlblom, B. Lehtinen, R. Sandstrom, Mekanismer för spårämnens inverkan på varmkuktiliteten hos austenitiska rostfria stål, Swerea KIMAB report IM-1426, 1980.

[21] R. Sandstrom, S. Modin, The residual lifetime of creep deformed components: microstructural observation for Mo- and CrMo-steels, Swedish Institute for Metals Research, Report IM-1348 1979.

[20] R. Sandstrom, A. Kondyr, Model for Tertiary Creep in Mo and CrMo Steels, in ICM 3, Pergamon Press, 1979, pp. 275-228.

[19] R. Sandstrom, S. Karlsson, S. Modin, The residual lifetime of creep deformed material. Microstructural changes occurring during creep of a 12%CrMoV-steel, 1979.

[18] A. Samuelsson, R. Sandstrom, Analysis of crack growth during thermal fatigue of roller shells for continuous casting of aluminium, Swedish Institute for Metals Research, Report IM-1380, , 1979.

[17] A. Kondyr, R. Sandstrom, A. Samuelsson, Creep deformation, creep damage accumulation and residual life. Prediction for three low alloyed CrMo-steels, Swedish Institute for Metals Research, Report IM-1336, , 1979.

[16] B. Ivarsson, R. Sandstrom, Extrapolation of creep rupture stressesof 12Cr and 18Cr10NiTi steels, in Sovjet-Swedish symposium On the applicationof materials, 1979.

[15] R. Sandstrom, A. Oden, Models for creep deformation in Butt-welded tubes with internal pressure, 1977.

[14] R. Ottenberg, A. Sandberg, R. Sandstrom, Inverkan av widmanstättenferrit på mekaniaka egenskaper i mikrolegerade stål, 1977.

[13] I. Lindgren, R. Sandstrom, B. Ivarsson, Optimering av duktilitet för given hållfasthet i aluminium och 70Cu-30Zn mässing, Swerea KIMAB report IM-1248, 1977.

[12] R. Sandstrom, E. Hedman, Formation of substructure during hot working of Al-0.2%Zr and its influence on the mechanical propties at room temperature, 1976.

[11] R. Sandstrom, H. Bergqvist, Strengthening of nitrogen alloyed austenitic stainless steels, in Int Conf on the Strength of Metals and Alloys, 4th, Proc, Aug 30-Sep 3 1976 Ed by Lab de Phys du Solide $-$ ENSMIM, ASMET, 1976, pp. 281-285.

[10] R. Sandstrom, I. Groza, B. Lehtinen, Growth of subgrains in and Al-1% Mn alloy in Quatrieme Congres International , Toulouse (1975), Microscopie electroniq!ze a haute tension, 1975.

[9] A. Melander, R. Sandstrom, Weak-beam contrast from inclusions in high-voltage electron microscopy, in Quatrieme Congres International , Toulouse (1975), microscopie electroniq!ze a haute tension, 1975, pp. 151-154.

[8] R. Sandstrom, High temperature creep of metals, in Nordic summer school Crystal defects: current growth points, DTU, 1974, 1974.

[7] R. Sandström, Nitrogen alloyeing and other methods to strengten austenitic stainless steels, Swedish Institute for Metals Research, report IM-1043, 1974.

[6] A. Melander, R. Sandstrom, Diffuse Intensity in Weak-Beam Images, in High-Voltage Electron Microscopy 1974, P.R.S.C.J.H.M.J. Goringe (Ed.), Academic Press, London, 21 Metallography, 1974, pp. 27-31.

[5] A. Melander, R. Sandstrom, Influence of non-systematic reflexions on weak-beam images in high-voltage electron microscopy, in 8th Int. congress on electron microscopy, Academic Press,, 1974, pp. 292-293.

[4] A. Melander, R. Sandstrom, Stacking fault contrast from phonon scattered electrons, in 8th Int. congress on electron microscopy, 1974, pp. 278-279.

[3] R. Lagneborg, R. Sandstrom, Dislocation Model for the Discontinuous Yield in B. C. C. -Metals, in Colloque franco-suedois sur les aciers de construction a bas carbone., 1974.

[2] G. Berglund, R. Sandström, Inverkan av kalldaformation på segheten hos olegerat konstruktionsstål, Jernkontoret, 1974.

[1] C.J. Humphreys, R. Sandstrom, J.F. Spencer, Contrast enhancement from single atoms and from crystals using energy analysis, in Scanning electron microscopy /1973 (part II), IIT Reseach Institute, 1973, pp. 233-242.