Electron beam melting of Ti–48Al–2Cr–2Nb alloy: Microstructure and mechanical properties investigation S Biamino, A Penna, U Ackelid, S Sabbadini, O Tassa, P Fino, M Pavese, ... Intermetallics 19 (6), 776-781, 2011 | 595 | 2011 |
Characterization and control of powder properties for additive manufacturing A Strondl, O Lyckfeldt, H Brodin, U Ackelid Jom 67, 549-554, 2015 | 365 | 2015 |
Microstructural architecture, microstructures, and mechanical properties for a nickel-base superalloy fabricated by electron beam melting LE Murr, E Martinez, SM Gaytan, DA Ramirez, BI Machado, PW Shindo, ... Metallurgical and Materials Transactions A 42, 3491-3508, 2011 | 353 | 2011 |
Catalytic metals and field-effect devices—a useful combination I Lundström, A Spetz, F Winquist, U Ackelid, H Sundgren Sensors and Actuators B: Chemical 1 (1-6), 15-20, 1990 | 173 | 1990 |
Method and apparatus for additive manufacturing U Ackelid US Patent 9,550,207, 2017 | 160 | 2017 |
Method and apparatus for increasing the resolution in additively manufactured three-dimensional articles U Ackelid US Patent 9,079,248, 2015 | 154 | 2015 |
Comparison off selective laser and electron beam melted titanium aluminides L Löber, S Biamino, U Ackelid, S Sabbadini, P Epicoco, P Fino, J Eckert University of Texas at Austin, 2011 | 149 | 2011 |
Powder distribution in additive manufacturing of three-dimensional articles J Nordkvist, U Ackelid, A Snis US Patent 9,505,057, 2016 | 140 | 2016 |
Systems, apparatus, and methods to feed and distribute powder used to produce three-dimensional objects G Wallgren, U Ackelid, M Svensson US Patent 7,871,551, 2011 | 138 | 2011 |
Apparatus for producing a three-dimensional object U Ackelid, G Wallgren US Patent 8,308,466, 2012 | 133 | 2012 |
Apparatus and method for producing a three-dimensional object U Ackelid US Patent App. 13/471,737, 2012 | 123 | 2012 |
Additive manufacturing of three-dimensional articles U Ljungblad, U Ackelid US Patent 10,130,993, 2018 | 118* | 2018 |
Effects of HIP on microstructural heterogeneity, defect distribution and mechanical properties of additively manufactured EBM Ti-48Al-2Cr-2Nb M Seifi, AA Salem, DP Satko, U Ackelid, SL Semiatin, JJ Lewandowski Journal of Alloys and Compounds 729, 1118-1135, 2017 | 117 | 2017 |
Surface oxidation behavior of Ti–6Al–4V manufactured by Electron Beam Melting (EBM®) J Karlsson, M Norell, U Ackelid, H Engqvist, J Lausmaa Journal of Manufacturing Processes 17, 120-126, 2015 | 110 | 2015 |
Method and apparatus for producing three-dimensional objects D Jonasson, M Larsson, U Ackelid, A Snis, T Lock US Patent 8,992,816, 2015 | 104 | 2015 |
Method and apparatus for producing three-dimensional objects D Jonasson, M Larsson, U Ackelid, A Snis, T Lock US Patent 8,992,816, 2015 | 103 | 2015 |
Titanium alloys manufactured with electron beam melting mechanical and chemical properties M Svensson, U Ackelid, A Ab Proceedings of the materials and processes for medical devices conference …, 2010 | 95 | 2010 |
Powder pre-processing for additive manufacturing U Ackelid US Patent 9,561,542, 2017 | 90 | 2017 |
Enhanced additive manufacturing U Ackelid US Patent App. 14/750,797, 2016 | 80 | 2016 |
Method for improved material properties in additive manufacturing U Ljungblad, U Ackelid, L Loevgren US Patent App. 14/750,812, 2016 | 78 | 2016 |