Publikationer av Zuheir Barsoum

Refereegranskade

Artiklar

[1]

S. Eliasson et al., "Probabilistic fatigue strength assessment of cross-ply laminates : Exploring effects of manufacturing defects through a two-scale modeling approach," Composite structures, vol. 330, 2024.

[2]

A. Alhourani et al., "Thermal modeling of friction stir welding of thick high-density polyethylene plates," Journal of Materials Research and Technology, vol. 28, s. 4186-4198, 2024.

[3]

G. Hultgren, R. Mansour och Z. Barsoum, "Fatigue strength assessment of welded joints incorporating the variability in local weld geometry using a probabilistic framework," International Journal of Fatigue, vol. 167, 2023.

[4]

G. Hultgren et al., "Fracture toughness assessment of surface cracks in slender ultra-high-strength steel plates," Engineering Fracture Mechanics, vol. 289, 2023.

[5]

A. Lundkvist et al., "Geometric and Material Modelling Aspects for Strength Prediction of Riveted Joints," Metals, vol. 13, no. 3, s. 500, 2023.

[6]

S. Eliasson et al., "A Statistical Porosity Characterization Approach of Carbon-Fiber-Reinforced Polymer Material Using Optical Microscopy and Neural Network," Materials, vol. 15, no. 19, 2022.

[7]

S. Eliasson et al., "An Experimentally Based Micromechanical Framework Exploring Effects of Void Shape on Macromechanical Properties," Materials, vol. 15, no. 12, s. 4361, 2022.

[8]

T. Tyystjärvi et al., "Automated defect detection in digital radiography of aerospace welds using deep learning," Welding in the World, vol. 66, no. 4, s. 643-671, 2022.

[9]

H. Cheemakurthy et al., "Comparison of Lightweight Structures in Bearing Impact Loads during Ice–Hull Interaction," Journal of Marine Science and Engineering, vol. 10, no. 6, s. 794, 2022.

[10]

J. Zhu et al., "Evaluation of local stress-based fatigue strength assessment methods for cover plates and T-joints subjected to axial and bending loading," Fatigue & Fracture of Engineering Materials & Structures, vol. 45, no. 9, s. 2531-2548, 2022.

[11]

H. Cheemakurthy et al., "Lightweight Structural Concepts in Bearing Quasi-Static Ice Hull Interaction Loads," Journal of Marine Science and Engineering, vol. 10, no. 3, s. 416-416, 2022.

[12]

Y. Banno, K. Kinoshita och Z. Barsoum, "Numerical investigation of crack opening-closing behavior on pre-fatigued welded joints repaired by HFMI," Welding in the World, vol. 66, no. 4, s. 767-781, 2022.

[13]

D. Afshari, A. Ghaffari och Z. Barsoum, "Optimization in the Resistant Spot-Welding Process of AZ61 Magnesium Alloy," Strojniski vestnik, vol. 68, no. 7-8, s. 485-492, 2022.

[14]

J. Zhu et al., "Computational weld-mechanics assessment of welding distortions in a large beam structure," Engineering structures, vol. 236, 2021.

[15]

M. Karlsson Hagnell et al., "Design Implications and Opportunities of Considering Fatigue Strength, Manufacturing Variations and Predictive LCC in Welds," Metals, vol. 11, no. 10, 2021.

[16]

G. Hultgren et al., "Digital scanning of welds and influence of sampling resolution on the predicted fatigue performance: modelling, experiment and simulation," Metals, vol. 11, no. 5, 2021.

[17]

G. Hultgren et al., "Fatigue probability model for AWJ-cut steel including surface roughness and residual stress," Journal of constructional steel research, vol. 179, 2021.

[18]

G. Hultgren et al., "Mapping of scatter in fatigue life assessment of welded structures—a round-robin study," Welding in the World, vol. 65, no. 9, s. 1841-1855, 2021.

[19]

Y. Banno, K. Kinoshita och Z. Barsoum, "Numerical investigation of influence of under- and over- treatment on residual stress state induced by HFMI," Welding in the World, vol. 65, no. 11, s. 2135-2146, 2021.

[20]

M. Leitner och Z. Barsoum, "Effect of increased yield strength, R-ratio, and plate thickness on the fatigue resistance of high-frequency mechanical impact (HFMI)-treated steel joints," Welding in the World, vol. 64, no. 7, s. 1245-1259, 2020.

[21]

G. Hultgren och Z. Barsoum, "Fatigue assessment in welded joints based on geometrical variations measured by laser scanning," Welding in the World, vol. 64, no. 11, s. 1825-1831, 2020.

[22]

E. Delkhosh et al., "Fracture mechanics and fatigue life assessment of box-shaped welded structures : FEM analysis and parametric design," Welding in the World, vol. 64, no. 9, s. 1535-1551, 2020.

[23]

R. Aldén et al., "Robustness of the HFMI techniques and the effect of weld quality on the fatigue life improvement of welded joints," Welding in the World, vol. 64, no. 11, s. 1947-1956, 2020.

[24]

M. Leitner et al., "Validation of the fatigue strength assessment of HFMI-treated steel joints under variable amplitude loading," Welding in the World, vol. 64, no. 10, s. 1681-1689, 2020.

[25]

R. Mansour et al., "A probabilistic model of weld penetration depth based on process parameters," The International Journal of Advanced Manufacturing Technology, vol. 105, no. 1-4, s. 499-514, 2019.

[26]

J. Zhu, M. Khurshid och Z. Barsoum, "Accuracy of computational welding mechanics methods for estimation of angular distortion and residual stresses," Welding in the World, vol. 63, no. 5, s. 1391-1405, 2019.

[27]

T. Stenberg et al., "Development of a computational fatigue model for evaluation of weld quality," Welding in the World, vol. 63, no. 6, s. 1771-1785, 2019.

[28]

J. Baumgartner, H. C. Yıldırım och Z. Barsoum, "Fatigue strength assessment of TIG-dressed welded steel joints by local approaches," International Journal of Fatigue, vol. 126, s. 72-78, 2019.

[29]

A. Ahola, T. Bjork och Z. Barsoum, "Fatigue strength capacity of load-carrying fillet welds on ultra-high-strength steel plates subjected to out-of-plane bending," Engineering structures, vol. 196, 2019.

[30]

D. Afshari, S. Mirzaahamdi och Z. Barsoum, "Residual Stresses in Resistance Spot Welded AZ61 Mg Alloy," CMES - Computer Modeling in Engineering & Sciences, vol. 118, no. 2, s. 275-290, 2019.

[31]

I. Barsoum, Z. Barsoum och M. D. Islam, "Thermomechanical Evaluation of the Performance and Integrity of a HDPE Stub-End Bolted Flange Connection," Journal of Pressure Vessel Technology-Transactions of the ASME, vol. 141, no. 5, 2019.

[32]

R. Umer et al., "Analysis of the compression behaviour of different composite lattice designs," Journal of composite materials, vol. 52, no. 6, s. 715-729, 2018.

[33]

P. Shams-Hakimi et al., "Experimental study of transverse attachment joints with 40 and 60 mm thick main plates, improved by high-frequency mechanical impact treatment (HFMI)," Engineering structures, vol. 155, s. 251-266, 2018.

[34]

M. Maalouf och Z. Barsoum, "Failure strength prediction of aluminum spot-welded joints using kernel ridge regression," The International Journal of Advanced Manufacturing Technology, vol. 91, no. 9-12, s. 3717-3725, 2017.

[35]

T. Stenberg et al., "Fatigue assessment of cut edges in high strength steel – Influence of surface quality," Materialwissenschaft und Werkstofftechnik, vol. 48, no. 6, s. 556-569, 2017.

[36]

T. Stenberg et al., "Quality control and assurance in fabrication of welded structures subjected to fatigue loading," Welding in the World, vol. 61, no. 5, s. 1003-1015, 2017.

[37]

M. Khurshid et al., "Residual stress state induced by High Frequency Mechanical Impact Treatment in different steel grades -numerical and experimental study," International Journal of Mechanical Sciences, vol. 123, s. 34-42, 2017.

[38]

M. Khurshid et al., "Root fatigue strength assessment of fillet welded tube-to-plate joints subjected to multi-axial stress state using stress based local methods," International Journal of Fatigue, vol. 101, s. 209-223, 2017.

[39]

M. Leitner, M. Khurshid och Z. Barsoum, "Stability of high frequency mechanical impact (HFMI) post-treatment induced residual stress states under cyclic loading of welded steel joints," Engineering structures, vol. 143, s. 589-602, 2017.

[40]

H. C. Yildirim et al., "Application studies for fatigue strength improvement of welded structures by high-frequency mechanical impact (HFMI) treatment," Engineering structures, vol. 106, s. 422-435, 2016.

[41]

M. Leitner, Z. Barsoum och F. Schäfers, "Crack propagation analysis and rehabilitation by HFMI of pre-fatigued welded structures," Welding in the World, vol. 60, no. 3, s. 581-592, 2016.

[42]

D. Afshari et al., "Prediction of residual stresses in resistance spot weld," Aircraft Engineering and Aerospace Technology, vol. 88, no. 4, s. 492-497, 2016.

[43]

M. Khurshid et al., "The multiaxial weld root fatigue of butt welded joints subjected to uniaxial loading," Fatigue & Fracture of Engineering Materials & Structures, vol. 39, no. 10, s. 1281-1298, 2016.

[44]

E. Åstrand et al., "Welding procedures for fatigue life improvement of the weld toe," Welding in the World, vol. 60, no. 3, s. 573-580, 2016.

[45]

T. Stenberg, Z. Barsoum och S. Balawi, "Comparison of local stress based concepts - Effects of low-and high cycle fatigue and weld quality," Engineering Failure Analysis, vol. 57, s. 323-333, 2015.

[46]

A. A. Bhatti et al., "Influence of thermo-mechanical material properties of different steel grades on welding residual stresses and angular distortion," Materials & Design, vol. 65, s. 878-889, 2015.

[47]

M. Khurshid, Z. Barsoum och I. Barsoum, "Load Carrying Capacities of Butt Welded Joints in High Strength Steels," Journal of engineering materials and technology, vol. 137, no. 4, 2015.

[48]

M. Aygul et al., "An investigation of distortion-induced fatigue cracking under variable amplitude loading using 3D crack propagation analysis," Engineering Failure Analysis, vol. 45, s. 151-163, 2014.

[49]

I. Barsoum, F. Khan och Z. Barsoum, "Analysis of the torsional strength of hardened splined shafts," Materials and Design, vol. 54, s. 130-136, 2014.

[50]

M. Khurshid, Z. Barsoum och G. Marquis, "Behavior of compressive residual stresses in high strength steel welds induced by high frequency mechanical impact treatment," Journal of Pressure Vessel Technology-Transactions of the ASME, vol. 136, no. 4, s. 041404, 2014.

[51]

A. A. Bhatti, Z. Barsoum och M. Khurshid, "Development of a finite element simulation framework for the prediction of residual stresses in large welded structures," Computers & structures, vol. 133, s. 1-11, 2014.

[52]

T. Holmstrand et al., "Fatigue life assessment of improved joints welded with alternative welding techniques," Engineering Failure Analysis, vol. 42, s. 10-21, 2014.

[53]

G. Marquis och Z. Barsoum, "Fatigue strength improvement of steel structures by high-frequency mechanical impact : proposed procedures and quality assurance guidelines," Welding in the World, vol. 58, no. 1, s. 19-28, 2014.

[54]

M. Aygül et al., "Investigation of distortion-induced fatigue cracked welded details using 3D crack propagation analysis," International Journal of Fatigue, vol. 64, s. 54-66, 2014.

[55]

D. Afshari et al., "Prediction of the nugget size in resistance spot welding with a combination of a finite-element analysis and an artificial neural network," Materiali in tehnologije, vol. 48, no. 1, s. 33-38, 2014.

[56]

M. M. Alam et al., "Analysis of the stress raising action of flaws in laser clad deposits," Materials and Design, vol. 46, s. 328-337, 2013.

[57]

H. C. Yildirim, G. B. Marquis och Z. Barsoum, "Fatigue assessment of high frequency mechanical impact (HFMI)-improved fillet welds by local approaches," International Journal of Fatigue, vol. 52, s. 57-67, 2013.

[58]

G. B. Marquis et al., "Fatigue strength improvement of steel structures by high-frequency mechanical impact : proposed fatigue assessment guidelines," Welding in the World, vol. 57, no. 6, s. 803-822, 2013.

[59]

D. Afshari et al., "On Residual Stresses in Resistance Spot-Welded Aluminum Alloy 6061-T6 : Experimental and Numerical Analysis," Journal of materials engineering and performance (Print), vol. 22, no. 12, s. 3612-3619, 2013.

[60]

D. Afshari et al., "An approach in prediction of failure in resistance spot welded aluminum 6061-T6 under quasi-static tensile test," Proceedings of the Institution of mechanical engineers. Part B, journal of engineering manufacture, vol. 226, no. B6, s. 1026-1032, 2012.

[61]

T. Stenberg, E. Lindgren och Z. Barsoum, "Development of an algorithm for quality inspection of welded structures," Proceedings of the Institution of mechanical engineers. Part B, journal of engineering manufacture, vol. 226, no. 6, s. 1033-1041, 2012.

[62]

A. A. Bhatti och Z. Barsoum, "Development of efficient three-dimensional welding simulation approach for residual stress estimation in different welded joints," Journal of Strain Analysis for Engineering Design, vol. 47, no. 8, s. 539-552, 2012.

[63]

Z. Barsoum et al., "Fatigue design of lightweight welded vehicle structures : Influence of material and production procedures," Proceedings of the Institution of mechanical engineers. Part B, journal of engineering manufacture, vol. 226, no. 10, s. 1736-1744, 2012.

[64]

Z. Barsoum, M. Khurshid och I. Barsoum, "Fatigue strength evaluation of friction stir welded aluminium joints using the nominal and notch stress concepts," Materials & Design, vol. 41, s. 231-238, 2012.

[65]

G. Pettersson och Z. Barsoum, "Finite element analysis and fatigue design of a welded construction machinery component using different concepts," Engineering Failure Analysis, vol. 26, s. 274-284, 2012.

[66]

M. Khurshid, Z. Barsoum och N. A. Mumtaz, "Ultimate strength and failure modes for fillet welds in high strength steels," Materials and Design, vol. 40, s. 36-42, 2012.

[67]

B. Jonsson, Z. Barsoum och J.-O. Sperle, "Weight optimization and fatigue design of a welded bogie beam structure in a construction equipment," Engineering Failure Analysis, vol. 19, s. 63-76, 2012.

[68]

Z. Barsoum, "HENRY GRANJON PRIZE COMPETITION 2010 Winner Category C : "Design and Structural Integrity" FATIGUE DESIGN OF WELDED STRUCTURES - SOME ASPECTS OF WELD QUALITY AND RESIDUAL STRESSES," Welding in the World, vol. 55, no. 11-12, s. 2-11, 2011.

[69]

M. M. Alam et al., "Influence of defects on fatigue crack propagation in laser hybrid welded eccentric fillet joint," Engineering Fracture Mechanics, vol. 78, no. 10, s. 2246-2258, 2011.

[70]

Z. Barsoum och B. Jonsson, "Influence of weld quality on the fatigue strength in seam welds," Engineering Failure Analysis, vol. 18, no. 3, s. 971-979, 2011.

[71]

M. K. Hatami och Z. Barsoum, "Fatigue assessment of cruciform joints welded in different positions," Journal of Metallurgy and Materials Science, vol. 52, no. 1, s. 87-102, 2010.

[72]

M. M. Alam et al., "The influence of surface geometry and topography on the fatigue cracking behaviour of laser hybrid welded eccentric fillet joints," Applied Surface Science, vol. 256, no. 6, s. 1936-1945, 2010.

[73]

Z. Barsoum och M. Gustafsson, "Fatigue of high strength steel joints welded with low temperature transformation consumables," Engineering Failure Analysis, vol. 16, no. 7, s. 2186-2194, 2009.

[74]

B. Jonsson, Z. Barsoum och G. B. Arezou, "Influence from weld position on fillet weld quality," Welding in the World, vol. 55, s. 137-142, 2009.

[75]

Z. Barsoum och I. Barsoum, "Residual stress effects on fatigue life of welded structures using LEFM," Engineering Failure Analysis, vol. 16, no. 1, s. 449-467, 2009.

[76]

Z. Barsoum och A. Lundbäck, "Simplified FE welding simulation of fillet welds : 3D effects on the formation residual stresses," Engineering Failure Analysis, vol. 16, no. 7, s. 2281-2289, 2009.

[77]

Z. Barsoum och B. Jonsson, "Fatigue Assessment and LEFM Analysis of Cruciform Joints Fabricated with Different Welding Processes," Welding in the World, vol. 52, no. 7-8, s. 93-105, 2008.

[78]

Z. Barsoum, "Residual Stress Analysis and Fatigue of Multi-pass Welded Tubular Structures," Engineering Failure Analysis, vol. 15, no. 7, s. 863-874, 2008.

[79]

J. Samuelsson, B. Jonsson och Z. Barsoum, "Service fatigue design of complex welded construction equipment," Materialwissenschaft und Werkstofftechnik, vol. 39, no. 10, s. 734-739, 2008.

[80]

Z. Barsoum, "Residual Stress Prediction and Relaxation in Welded Tubular Joint," Welding in the World, vol. 51, no. 1/2, s. 23-30, 2007.

[81]

Z. Barsoum och J. Samuelsson, "Fatigue Assessment of Cruciform Joints Welded with Different Methods," Steel Research International, vol. 77, no. 12, s. 882-888, 2006.

Konferensbidrag

[82]

J. Zhu, Z. Barsoum och R. Mansour, "Numerical study of the influence of weld geometry variations on fatigue life using the notch stress analysis," i Fatigue Design 2021, International Conference Proceedings, 9th Edition,17-18 Nov 2021, Senlis, France, 2022, s. 621-630.

[83]

S. Eliasson et al., "Fatigue and Damage Assessment of CFRP Material Using Digital Image Correlation," i 9th International Conference on Fatigue Design, Fatigue Design 2021 : Proceedings, 2021, s. 631-639.

[84]

T. Jonsson, T. Narström och Z. Barsoum, "Fatigue and Ultimate Strength Assessment of Post Weld Treated Strenx® 1100 Plus Butt Welds," i Procedia Structural Integrity, 2021, s. 411-417.

[85]

N. Shetye et al., "Life-Cycle Energy Analysis of a High Strength Steel Heavy Vehicle Component Subjected to Fatigue Loading," i Procedia Structural Integrity, 2021, s. 538-545.

[86]

J. Zhu, M. Khurshid och Z. Barsoum, "Assessment of computational weld mechanics concepts for estimation of residual stresses in welded box structures," i 3rd International Conference on Structural Integrity, (ICSI 2019), 2019, s. 704-711.

[87]

S. Eliasson et al., "Development of fatigue testing procedure for unidirectional carbon fiber composites," i Procedia Structural Integrity, 2019, s. 81-89.

[88]

M. Edgren et al., "Evaluation of HFMI as a Life Extension Technique for Welded Bridge Details," i Fatigue Design 2019, International Conference on Fatigue Design, 8th Edition, 2019, s. 73-80.

[89]

H. Cheemakurthy et al., "Nonlinear Finite Element Analysis of Inland-Waterway Barge in Fresh Water Ice Conditions," i Proceedings of the Annual International Offshore and Polar Engineering Conference : Proceedings of The Twenty-ninth (2019) International OCEAN AND POLAR ENGINEERING CONFERENCE, 2019, s. 799-806.

[90]

M. Al-Emrani et al., "Fatigue improvement of welded bridge details In stainless steel using High-Frequency Mechanical Impact treatment," i Maintenance, Safety, Risk, Management and Life-Cycle Performance of Bridges : Proceedings of the Ninth International Conference on Bridge Maintenance, Safety and Management (IABMAS 2018), 2018, s. 446-451.

[91]

Z. Barsoum, T. Stenberg och E. Lindgren, "Fatigue properties of cut and welded high strength steels-Quality aspects in design and production," i Procedia Engineering, 2018, s. 470-476.

[92]

F. B. Yalchiner och Z. Barsoum, "Life Extension of Welded Structures Using HFMI Techniques - Potential Application to Offshore Structures," i 2nd International Conference on Structural Integrity, ICSI 2017, 2017, s. 377-384.

[93]

Z. Barsoum och M. Khurshid, "Ultimate Strength Capacity of Welded Joints in High Strength Steels," i 2nd International Conference on Structural Integrity, ICSI 2017, 2017, s. 1401-1408.

[94]

Z. Barsoum, A. Bhatti och S. Balawi, "Computational Weld Mechanics - Towards a Simplified and Cost Effective Approach for Large Welded Structures," i Procedia Engineering, 2015, s. 62-69.

[95]

Z. Barsoum, M. Ghanadi och S. Balawi, "Managing Welding Induced Distortion - Comparison of Different Computational Approaches," i Procedia Engineering, 2015, s. 70-77.

[96]

M. Khurshid, Z. Barsoum och G. Marquis, "Behavior of compressive residual stresses in high strength steel welds induced by high frequency mechanical impact treatment," i Proceedings of the ASME Pressure Vessels and Piping Conference 2013 : presented at ASME 2013 pressure vessels and piping conference, July 14-18, 2013, Paris, France, 2014.

[97]

M. Farajian, Z. Barsoum och A. Kromm, "Residual stress engineering in fatigue resistant welds," i International Conference on Residual Stresses, (ICRS 9) : selected, peer reviewed papers from the 9th International Conference on Residual Stresses, (ICRS 9), October 7-9, 2012, Garmisch-Partenkirchen, Germany, 2014, s. 613-619.

[98]

G. Marquis och Z. Barsoum, "A guideline for fatigue strength improvement of high strength steel welded structures using high frequency mechanical impact treatment," i Procedia Engineering, 2013, s. 98-107.

[99]

A. A. Bhatti et al., "Fatigue strength improvement of welded structures using new low transformation temperature filler materials," i Fatigue Design 2013, International Conference Proceedings, 2013, s. 192-201.

[100]

L. L. Martinez, Z. Barsoum och A. Paradowska, "State-of-the-art : Fatigue life extension of offshore installations," i Proceedings of the ASME 31st International Conference on Ocean, Offshore and Arctic Engineering--2012 : presented at ASME 2012 31st International Conference on Ocean, Offshore and Arctic Engineering, July 1-6, 2012, Rio de Janeiro, Brazil, 2012, s. 9-20.

[101]

A. A. Bhatti et al., "Classification and crackgrowth modeling of cold lap defects in tandem GMAW welding," i International Symposium onFatigue Design & Material Defects, 2011.

[102]

J. Samuelsson et al., "Fatigue Design of Light Weight Vehicle Structures : Influence of material and production procedures," i International Symposium on Fatigue Design & Material Defects. Trondheim, Norway, 23-25 May 2011, 2011.

[103]

A. Kaplan et al., "The Impact of Weld Shape on Fatigue Cracking of Eccentric Geometry Laser Hybrid Welds under Bending Load," i Proc. of the Int. Conf. on Advances in Welding Science and Technology for Construction, Energy and Transportation, AWST 2010, held in Conj. with the 63rd Annual Assembly of IIW 2010, 2010, s. 253-259.

[104]

M. M. Alam et al., "Geometrical Aspects of The Fatigue Behaviour of Laser Hybrid Fillet Welds," i Proceedings of the Fatigue Design Conference, 2009.

[105]

B. Jonsson, Z. Barsoum och A. Ghavi Bazou, "Influence of weld position on fillet weld quality," i Proceedings of the IIW International Conference on Advances in Welding and Allied Technologies, 2009.

[106]

M. M. Alam et al., "The Effects of Surface Topography and Lack of Fusion on The Fatigue Strength of Laser Hybrid Welds," i Congress proceedings : ICALEO, 28th International Congress on Applications of Lasers & Electro-Optics, 2009, s. 38-46.

[107]

Z. Barsoum och I. Barsoum, "Residual stress effects on fatigue life of welded structures using LEFM," i 8th International Conference on Residual Stresses. Denver, Colorado. 4-8 August 2008, 2008.

[108]

J. Samuelsson, B. Jonsson och Z. Barsoum, "Service fatigue design of complex welded construction equipment," i SoSDiD, Symposium on Structural Durability. Darmstadt. June 5-6 2008, 2008.

[109]

Z. Barsoum och M. Gustafson, "Spectrum fatigue of high strength steel joints welded with low temperature transformation consumables," i 2nd International Conference on Fatigue Design, 2007.

[110]

Z. Barsoum, "Numerical Analysis and Measurement of Residual Stresses in Multi Pass Welding - Influence on Fatigue Root Crack Propagation," i TRENDS IN WELDING RESEARCH, PROCEEDINGS, 2006, s. 589-594.

[111]

Z. Barsoum, "Residual stress prediction and relaxation in welded tubular joints under constant cyclic loading," i Residual Stresses VII, 2006, s. 323-328.

Icke refereegranskade

Artiklar

[112]

Z. Barsoum, "Avancerade metoder för noggrannare dimensionering av svetsade konstruktioner," Svetsen, vol. 68, no. 3, 2009.

[113]

Z. Barsoum och J. O. Sperle, "Mentorprogram för forskning kan ge kommersiella fördelar för svensk industri," Svetsen, vol. 68, no. 2, 2009.

[114]

Z. Barsoum, "Ny doktorsavhandling : Restspännings- och utmattningsanalyser av svetsade stålkonstruktioner," Svetsen, vol. 67, no. 3, 2008.

Konferensbidrag

[115]

S. Eliasson et al., "A life cycle energy and weight comparison of a carbon fibercomposite versus metallic component in a commercial vehicle," i A life cycle energy and weight comparison of a carbon fibercomposite versus metallic component in a commercialvehicle, 2021.

[116]

Z. Barsoum, "Fatigue design of welded structures : effect of weld quality and residual stresses, XIII-2312-10," i The 63rd Annual Assembly of the International Institute of Welding (IIW). Istanbul, Turkey. 11th - 16th July, 2010, 2010.

[117]

Z. Barsoum, "Local weld geometry and the influence on fatigue strength," i Proceedings of the Swedish Conference on Lightweight Optimised Welded Structures : Borlänge, March 24-25, 2009, 2010, s. 26-38.

[118]

Z. Barsoum, "Prediction of welding residual stresses by simplified approaches," i Proceedings of the Swedish Conference onLightweight Optimised Welded Structures : Borlänge, March 24-25, 2009, 2010, s. 39-50.

[119]

M. M. Alam et al., "Fatigue Behaviour Study of Laser Hybrid Welded Eccentric Fillet Joints - Part I," i 12th NOLAMP proceeding 2009 : Nordic Laser Materials Processing Conference, 2009.

[120]

M. M. Alam et al., "Fatigue behaviour study of laser hybrid welded eccentric fillet joints – Part II : State-of-the-art of fracture mechanics and fatigue analysis of welded joints," i 12th NOLAMP proceeding 2009 : Nordic Laser Materials Processing Conference, 2009.

[121]

Z. Barsoum och I. Barsoum, "Residual stress effects on fatigue life of welded structures using LEFM," i IIW International Institute of Welding : 62nd AnnualAssembly, 2009.

[122]

Z. Barsoum och B. Jonsson, "Fatigue Assessment and LEFM Analysis of Cruciform Joints Fabricated with Different Welding Processes, XIII-2175-07," i IIW International Institute of Welding : 60th Annual Assembly, 2007.

[123]

Z. Barsoum, "Fatigue Strength of cruciform joints fabricated with different welding processes," i International Symposium on Integrated Design and Manufacturing of Welded Structures, 2007.

[124]

Z. Barsoum, "Prediction of Welding Residual Stresses," i International Symposium on Integrated Design and Manufacturing of Welded Structures, 2007.

[125]

Z. Barsoum och J. Samuelsson, "Fatigue and Quality Analysis of Cruciform Joints Welded with Different Methods, XIII-2136-06," i International Institute of Welding : IIW 59th Annual Assembly, 2006.

[126]

Z. Barsoum och J. Samuelsson, "Residual Stress Prediction and Relaxation in Welded Tubular Joints," i IIW Doc. No. XIII-2135-06/XV-1225-06, 2006.

[127]

Z. Barsoum, "Fatigue Assessment of Cruciform Joints Welded with Different Methods," i IIW Doc. No. XIII-2074-05, 2005.

[128]

Z. Barsoum och J. Samuelsson, "Torsion Fatigue and Residual Stresses in Multi-Pass Welded Tubular Joint," i IIW Doc. No. XIII-2073-05, 2005.

Avhandlingar

[129]

Z. Barsoum, "Residual Stress Analysis and Fatigue Assessment of Welded Steel Structures," Doktorsavhandling Stockholm : KTH, Trita-AVE, 2008:11, 2008.

[130]

Z. Barsoum, "Residual Stress Analysis and Fatigue of Welded Structures," Licentiatavhandling Stockholm : Farkost och flyg, Trita-AVE, 2006:02, 2006.

Rapporter

[131]

Z. Barsoum, "GUIDELINES FOR FATIGUE ANDSTATIC ANALYSIS OF WELDEDAND UN-WELDED STEELSTRUCTURES," , 2020.

[132]

A. Öberg och Z. Barsoum, "Reduced VARIation in the manufacturing processes enabling LIGHTweight welded structures : Highlights from the research project VariLight," , TRITA-SCI-RAP, 2020.

Övriga

[133]

H. Cheemakurthy et al., "A lightweight ice going hull concept for freshwater ice operations," (Manuskript).

[134]

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