Publikationer av Sasan Dadbakhsh
Refereegranskade
Artiklar
[1]
Subasic, M., Olsson, M., Dadbakhsh, S., Zhao, X., Krakhmalev, P. & Mansour, R. (2024). Fatigue strength improvement of additively manufactured 316L stainless steel with high porosity through preloading. International Journal of Fatigue, 180.
[2]
Zhao, X., Wei, Y., Mansour, R., Dadbakhsh, S. & Rashid, A. (2023). Effect of Scanning Strategy on Thermal Stresses and Strains during Electron Beam Melting of Inconel 625 : Experiment and Simulation. Materials, 16(1).
[3]
Lin, Z., Surreddi, K. B., Hulme-Smith, C., Dadbakhsh, S. & Rashid, A. (2023). Influence of Electron Beam Powder Bed Fusion Process Parameters on Transformation Temperatures and Pseudoelasticity of Shape Memory Nickel Titanium. Advanced Engineering Materials.
[4]
Holmberg, J., Berglund, J., Brohede, U., Åkerfeldt, P., Sandell, V., Rashid, A. ... Hosseini, S. (2023). Machining of additively manufactured alloy 718 in as-built and heat-treated condition : surface integrity and cutting tool wear. The International Journal of Advanced Manufacturing Technology, 130(3-4), 1823-1842.
[5]
Zeyu, L., Dadbakhsh, S. & Rashid, A. (2022). Developing processing windows for powder pre-heating in electron beam melting. Journal of Manufacturing Processes, 83, 180-191.
[6]
Shi, Q., Mertens, R., Dadbakhsh, S., Li, G. & Yang, S. (2022). In-situ formation of particle reinforced Aluminium matrix composites by laser powder bed fusion of Fe2O3/AlSi12 powder mixture using laser melting/remelting strategy. Journal of Materials Processing Technology, 299.
[7]
Malakizadi, A., Mallipeddi, D., Dadbakhsh, S., M'Saoubi, R. & Krajnik, P. (2022). Post-processing of additively manufactured metallic alloys – A review. International journal of machine tools & manufacture, 179(103908).
[8]
Dadbakhsh, S., Zhao, X., Chinnappan, P. K., Shanmugam, V., Zeyu, L. & Hulme-Smith, C. (2022). Process and geometrical integrity optimization of electron beam melting for copper. CIRP annals, 71, 201-204.
[9]
Zhao, X., Dadbakhsh, S. & Rashid, A. (2021). Contouring strategies to improve the tensile properties and quality of EBM printed Inconel 625 parts. Journal of Manufacturing Processes, 62, 418-429.
[10]
Jadhav, S. D., Dhekne, P. P., Brodu, E., Van Hooreweder, B., Dadbakhsh, S., Kruth, J.-P. ... Vanmeensel, K. (2021). Laser powder bed fusion additive manufacturing of highly conductive parts made of optically absorptive carburized CuCr1 powder. Materials & design, 198.
[11]
Zhao, X., Rashid, A., Strondl, A., Hulme-Smith, C., Stenberg, N. & Dadbakhsh, S. (2021). Role of Superficial Defects and Machining Depth in Tensile Properties of Electron Beam Melting (EBM) Made Inconel 718. Journal of materials engineering and performance (Print), 30(3), 2091-2101.
[12]
Zhao, X., Rashid, A., Strondl, A., Hulme-Smith, C., Stenberg, N. & Dadbakhsh, S. (2021). Role of Superficial Defects and Machining Depthin Tensile Properties of Electron Beam Melting (EBM)Made Inconel 718. Journal of materials engineering and performance (Print).
[13]
Tang, D., Hao, L., Li, Y., Li, Z. & Dadbakhsh, S. (2020). Dual gradient direct ink writing for formation of kaolinite ceramic functionally graded materials. Journal of Alloys and Compounds, 814.
[14]
Dadbakhsh, S., Mertens, R., Ji, G., Vrancken, B., Vanmeensel, K., Fan, H. ... Kruth, J.-P. (2020). Heat treatment possibilities for an in situ βTi-TiC composite made by laser powder bed fusion. Additive Manufacturing, 36.
[15]
Dadbakhsh, S., Mertens, R., Vanmeensel, K., Ji, G. & Kruth, J.-P. (2020). In situ transformations during SLM of an ultra-strong TiC reinforced Ti composite. Scientific Reports, 10(1).
[16]
Amin Yavari, S., Croes, M., Akhavan, B., Jahanmard, F., Eigenhuis, C. C., Dadbakhsh, S. ... Zadpoor, A. A. (2020). Layer by layer coating for bio-functionalization of additively manufactured meta-biomaterials. Additive Manufacturing, 32.
[17]
Jadhav, S. D., Dhekne, P. P., Dadbakhsh, S., Kruth, J.-P., Van Humbeeck, J. & Vanmeensel, K. (2020). Surface Modified Copper Alloy Powder for Reliable Laser-based Additive Manufacturing. Additive Manufacturing, 35.
[18]
Jadhav, S. D., Dadbakhsh, S., Vleugels, J., Hofkens, J., Puyvelde, P. Van, Yang, S. ... Vanmeensel, K. (2019). Influence of Carbon Nanoparticle Addition (and Impurities) on Selective Laser Melting of Pure Copper. Materials, 12(15).
[19]
Jadhav, S. D., Dadbakhsh, S., Goossens, L., Kruth, J. P., Van Humbeeck, J. & Vanmeensel, K. (2019). Influence of selective laser melting process parameters on texture evolution in pure copper. Journal of Materials Processing Technology, 270, 47-58.
[20]
Jadhav, S. D., Dadbakhsh, S., Chen, R., Shabadi, R., Kruth, J.-P., Van Humbeeck, J. & Vanmeensel, K. (2019). Modification of Electrical and Mechanical Properties of Selective Laser-Melted CuCr0.3 Alloy Using Carbon Nanoparticles. Advanced Engineering Materials, n/a(n/a).
[21]
Vrancken, B., Dadbakhsh, S., Mertens, R., Vanmeensel, K., Vleugels, J., Yang, S. & Kruth, J.-P. (2019). Selective Laser Melting process optimization of Ti–Mo–TiC metal matrix composites. CIRP annals, 68, 221-224.
[22]
Dadbakhsh, S., Mertens, R., Hao, L., Van Humbeeck, J. & Kruth, J.-P. (2019). Selective Laser Melting to Manufacture "In Situ" Metal Matrix Composites: A Review. Advanced Engineering Materials, 21(3).
[23]
Mertens, R., Dadbakhsh, S., Humbeeck, J. Van & Kruth, J.-P. (2018). Application of base plate preheating during selective laser melting. Procedia CIRP, 74, 5-11.
[24]
Dadbakhsh, S., Mertens, R., Vanmeensel, K., Vleugels, J., Humbeeck, J. Van & Kruth, J.-P. (2018). In situ alloying and reinforcing of Al6061 during selective laser melting. Procedia CIRP, 74, 39-43.
[25]
Strobbe, D., Dadbakhsh, S., Verbelen, L., Van Puyvelde, P. & Kruth, J.-P. (2018). Selective laser sintering of polystyrene : a single-layer approach. Plastics, rubber and composites, 47(1), 2-8.
[26]
Verbelen, L., Dadbakhsh, S., Van den Eynde, M., Strobbe, D., Kruth, J.-P., Goderis, B. & Van Puyvelde, P. (2017). Analysis of the material properties involved in laser sintering of thermoplastic polyurethane. Additive Manufacturing, 15, 12-19.
[27]
Gorgin Karaji, Z., Speirs, M., Dadbakhsh, S., Kruth, J. P., Weinans, H., Zadpoor, A. A. & Amin Yavari, S. (2016). Additively Manufactured and Surface Biofunctionalized Porous Nitinol. ACS Applied Materials and Interfaces.
[28]
Verbelen, L., Dadbakhsh, S., Van den Eynde, M., Kruth, J.-P., Goderis, B. & Van Puyvelde, P. (2016). Characterization of polyamide powders for determination of laser sintering process ability. European Polymer Journal, 75, 163-174.
[29]
Dadbakhsh, S., Verbelen, L., Vandeputte, T., Strobbe, D., Van Puyvelde, P. & Kruth, J.-P. (2016). Effect of Powder Size and Shape on the SLS Processability and Mechanical Properties of a TPU Elastomer. Physics Procedia, 83, 971-980.
[30]
Dadbakhsh, S., Speirs, M., Van Humbeeck, J. & Kruth, J.-P. (2016). Laser additive manufacturing of bulk and porous shape-memory NiTi alloys : From processes to potential biomedical applications. MRS bulletin, 41(10), 765-774.
[31]
Speirs, M., Wang, X., Van Baelen, S., Ahadi, A., Dadbakhsh, S., Kruth, J. -. & Van Humbeeck, J. (2016). On the Transformation Behavior of NiTi Shape-Memory Alloy Produced by SLM. Shape Memory and Superelasticity, 2(4), 310-316.
[32]
Paraskevas, D., Dadbakhsh, S., Vleugels, J., Vanmeensel, K., Dewulf, W. & Duflou, J. R. (2016). Solid state recycling of pure Mg and AZ31 Mg machining chips via spark plasma sintering. Materials & design, 109, 520-529.
[33]
Dadbakhsh, S., Vrancken, B., Kruth, J. P., Luyten, J. & Van Humbeeck, J. (2016). Texture and anisotropy in selective laser melting of NiTi alloy. Materials Science & Engineering : A, 650, 225-232.
[34]
Dadbakhsh, S., Speirs, M., Kruth, J.-P. & Van Humbeeck, J. (2015). Influence of SLM on shape memory and compression behaviour of NiTi scaffolds. CIRP annals, 64(1), 209-212.
[35]
Dadbakhsh, S. & Hao, L. (2014). Effect of Fe2O3 content on microstructure of Al powder consolidated parts via selective laser melting using various laser powers and speeds. The International Journal of Advanced Manufacturing Technology, 73(9-12), 1453-1463.
[36]
Dadbakhsh, S. & Hao, L. (2014). Effect of Layer Thickness in Selective Laser Melting on Microstructure of Al/5wt.%Fe2O3 Powder Consolidated Parts. The Scientific World Journal, 2014, 10.
[37]
Dadbakhsh, S., Speirs, M., Kruth, J.-P., Schrooten, J., Luyten, J. & Van Humbeeck, J. (2014). Effect of SLM Parameters on Transformation Temperatures of Shape Memory Nickel Titanium Parts. Advanced Engineering Materials, 16(9), 1140-1146.
[38]
Dadbakhsh, S. & Hao, L. (2012). Effect of Al alloys on selective laser melting behaviour and microstructure of in situ formed particle reinforced composites. Journal of Alloys and Compounds, 541(0), 328-334.
[39]
Dadbakhsh, S. & Hao, L. (2012). Effect of hot isostatic pressing (HIP) on Al composite parts made from laser consolidated Al/Fe2O3 powder mixtures. Journal of Materials Processing Technology, 212(11), 2474-2483.
[40]
Dadbakhsh, S., Hao, L. & Sewell, N. (2012). Effect of selective laser melting layout on the quality of stainless steel parts. Rapid prototyping journal, 18(3), 241-249.
[41]
Dadbakhsh, S., Hao, L., Jerrard, P. G. E. & Zhang, D. Z. (2012). Experimental investigation on selective laser melting behaviour and processing windows of in situ reacted Al/Fe2O3 powder mixture. Powder Technology, 231(0), 112-121.
[42]
Dadbakhsh, S. & Hao, L. (2012). In situ formation of particle reinforced Al matrix composite by selective laser melting of Al/Fe 2O 3 powder mixture. Advanced Engineering Materials, 14(1-2), 45-48.
[43]
Jerrard, P. G. E., Hao, L., Dadbakhsh, S. & Evans, K. E. (2011). Consolidation behaviour and microstructural characteristics of Al and a mixture of Al-Cu alloy powders following selective laser melting processing. Lasers in engineering (Print), 22(5-6), 371-381.
[44]
Dadbakhsh, S., Karimi Taheri, A. & Smith, C. W. (2010). Strengthening study on 6082 Al alloy after combination of aging treatment and ECAP process. Materials Science and Engineering: A, 527(18-19), 4758-4766.
[45]
Dadbakhsh, S. & Taheri, A. K. (2010). Study on static strain aging of 6082 aluminium alloy. Materials Science and Technology, 26(2), 169-175.
[46]
Dadbakhsh, S., Hao, L. & Kong, C. Y. (2010). Surface finish improvement of LMD samples using laser polishing. Virtual and Physical Prototyping, 5(4), 215-221.
[47]
Hao, L. & Dadbakhsh, S. (2009). Materials and process aspects of selective laser melting of metals and metal matrix composites : A review. Zhongguo Jiguang/Chinese Journal of Lasers, 36(12), 3192-3203.
[48]
Hao, L., Dadbakhsh, S., Seaman, O. & Felstead, M. (2009). Selective laser melting of a stainless steel and hydroxyapatite composite for load-bearing implant development. Journal of Materials Processing Technology, 209(17), 5793-5801.
Konferensbidrag
[49]
Zeyu, L., Dadbakhsh, S., Rashid, A. (2023). Increasing precision towards NiTi lattice structure using PBF-EB. Presenterad vid 34th Annual Symposium: Solid Freeform Fabrication, August 14-16, 2023, Austin, Texas, United States of America.
[50]
Matija, M., Mao, H., Tibert, G., Dadbakhsh, S. (2022). Design and Development of Damping SandwichPanels for Satellite Housing Using AdditiveManufacturing. Presenterad vid International Conference on Design for 3D Printing.
[51]
Mansour, R., Gillgren, S., Dadbakhsh, S. (2022). Topology Optimization for Additive Manufacturing – A Numerical Study of Current Design Framework Capabilities and Limitations. I Advances in Transdisciplinary Engineering. (s. 592-603). IOS Press.
[52]
Lin, Z., Zhao, X., Dadbakhsh, S., Rashid, A. (2021). Evaluating the electron beam spot size in electron beam melting machines. Presenterad vid Virtual Lamdamap 14th International Conference & Exhibition, 10th-11th March 2021.
[53]
Zeyu, L., Zhao, X., Dadbakhsh, S., Rashid, A. (2021). Evaluation of the electron beam spot size in electron beam melting for additive manufacturing. I Laser Metrology and Machine Performance XIV - 14th International Conference and Exhibition on Laser Metrology, Machine Tool, CMM and Robotic Performance, LAMDAMAP 2021. (s. 89-92). euspen.
[54]
Zhao, X., Rashid, A., Dadbakhsh, S. (2019). Influence of Contouring and depth of machining on tensile properties of Inconel 625 made by Electron Beam Melting. I Metal Additive Manufacturing Conference: Laser Melting, Electon Beam Melting & Direct Energy Deposition Processes. (s. 118-127).
[55]
Jadhav, S. D., Van Cauwenbergh, P., Lietaert, K., Van Humbeeck, J., Kruth, J.-P., Dadbakhsh, S., Ivekovic, A., Vanmeensel, K. (2017). SLM of CuNi10 alloy using gas atomized powder. I Materials Science and Technology. Pittsburgh, Pennsylvania, USA.
[56]
Verbelen, L., Dadbakhsh, S., Kruth, J.-P., Van Puyvelde, P. (2015). Characterization of different PA powders to determine their applicability for laser sintering. Presenterad vid Solid Freeform Fabrication Symposium.
[57]
Dadbakhsh, S., Speirs, M., Yablokova, G., Kruth, J.-P., Schrooten, J., Luyten, J., Van Humbeeck, J., The Minerals, M., Materials, S. (2015). Microstructural Analysis and Mechanical Evaluation of Ti-45Nb Produced by Selective Laser Melting towards Biomedical Applications. I TMS2015 Supplemental Proceedings. John Wiley & Sons, Inc.
[58]
Yablokova, G., Dadbakhsh, S., Speirs, M., Khangholi, A., Kruth, J.-P., Luyten, J., Schrooten, J., Van Humbeeck, J. (2015). Surface Treatment of Ti-45Nb Open Porous Structures towards Biomedical Applications : A Modified Approach. I TMS2015 Supplemental Proceedings. (s. 515-520). John Wiley & Sons.
[59]
Dadbakhsh, S., Hao, L., Kruth, J.-P. (2013). Selective laser melting towards manufacture of three dimensional in situ Al matrix composites : A review. I High Value Manufacturing: Advanced Research in Virtual and Rapid Prototyping - Proceedings of the 6th International Conference on Advanced Research and Rapid Prototyping, VR@P..
[60]
Speirs, M., Dadbakhsh, S., Buls, S., Kruth, J., Van Humbeeck, J., Schrooten, J., Luyten, J. (2013). The effect of SLM parameters on geometrical characteristics of open porous NiTi scaffolds. I High Value Manufacturing: Advanced Research in Virtual and Rapid Prototyping - Proceedings of the 6th International Conference on Advanced Research and Rapid Prototyping, VR@P 2013. (s. 309-314). Leiria, Portugal: CRC Press.
[61]
Hao, L., Raymond, D., Strano, G., Dadbakhsh, S. (2010). Enhancing the sustainability of additive manufacturing. I IET Conference Publications..
[62]
Dadbakhsh, S., Hao, L., Sewell, N., Jerrard, P. (2009). Direct fabrication of an in-situ Al composite using selective laser melting process. I Innovative developments in design and manufacturing advanced research in virtual and rapid prototyping: proceedings of the 4th International Conference on Advanced Research in Virtual and Rapid Prototyping. Leiria: CRC Press.
Kapitel i böcker
[63]
Vanmeensel, K., Lietaert, K., Vrancken, B., Dadbakhsh, S., Li, X., Kruth, J.-P. ... Van Humbeeck, J. (2018). 8 - Additively manufactured metals for medical applications. I Additive Manufacturing: Materials, Processes, Quantifications and Applications (s. 261-309). Butterworth-Heinemann.
[64]
Jean-Pierre, K., Sasan, D., Bey, V., Karolien, K., Jef, V. & Jan Van, H. (2015). Additive Manufacturing of Metals via Selective Laser Melting: Process Aspects and Material Developments. I Additive Manufacturing. CRC Press.
Icke refereegranskade
Konferensbidrag
[65]
Zeyu, L., Dadbakhsh, S. (2023). The processing windows for NiTi alloy manufactured by PBF-EBessing windows for NiTi alloy manufactured by PBF-EB. I The processing windows for NiTi alloy manufactured by PBF-EB..
Övriga
[66]
Zeyu, L., Dadbakhsh, S., Larsson, J., Karlsson, P., Rashid, A. (). A systematic approach to optimize parameters in manufacturing complex lattice structures of NiTi using electron beam PBF process. (Manuskript).
Senaste synkning med DiVA:
2024-04-14 02:44:31