Reduction of micro-cracking in nickel superalloys processed by Selective Laser Melting: A fundamental alloy design approach NJ Harrison, I Todd, K Mumtaz Acta Materialia 94, 59-68, 2015 | 732 | 2015 |
Effect of scanning strategies on residual stress and mechanical properties of Selective Laser Melted Ti6Al4V H Ali, H Ghadbeigi, K Mumtaz Materials Science and Engineering: A 712, 175-187, 2018 | 563 | 2018 |
Top surface and side roughness of Inconel 625 parts processed using selective laser melting K Mumtaz, N Hopkinson Rapid Prototyping Journal 15 (2), 96-103, 2009 | 513 | 2009 |
Reviewed, accepted September 14, 2006 KA Mumtaz, N Hopkinson, P Erasenthiran | 392* | 2006 |
In-situ residual stress reduction, martensitic decomposition and mechanical properties enhancement through high temperature powder bed pre-heating of Selective Laser Melted Ti6Al4V H Ali, L Ma, H Ghadbeigi, K Mumtaz Materials Science and Engineering: A 695, 211-220, 2017 | 383 | 2017 |
Selective laser melting of thin wall parts using pulse shaping KA Mumtaz, N Hopkinson Journal of Materials Processing Technology 210 (2), 279-287, 2010 | 320 | 2010 |
AlSi12 in-situ alloy formation and residual stress reduction using anchorless selective laser melting P Vora, K Mumtaz, I Todd, N Hopkinson Additive manufacturing 7, 12-19, 2015 | 257 | 2015 |
Laser melting functionally graded composition of Waspaloy® and Zirconia powders KA Mumtaz, N Hopkinson Journal of materials science 42 (18), 7647-7656, 2007 | 138 | 2007 |
Two-dimensional simulation of grain structure growth within selective laser melted AA-2024 O Lopez-Botello, U Martinez-Hernandez, J Ramírez, C Pinna, K Mumtaz Materials & Design 113, 369-376, 2017 | 132 | 2017 |
Selective laser melting of Inconel 625 using pulse shaping K Mumtaz, N Hopkinson Rapid Prototyping Journal 16 (4), 248-257, 2010 | 132 | 2010 |
Processing parameter effects on residual stress and mechanical properties of selective laser melted Ti6Al4V H Ali, H Ghadbeigi, K Mumtaz Journal of materials engineering and performance 27, 4059-4068, 2018 | 131 | 2018 |
Laser diode area melting for high speed additive manufacturing of metallic components M Zavala-Arredondo, N Boone, J Willmott, DTD Childs, P Ivanov, ... Materials & Design 117, 305-315, 2017 | 116 | 2017 |
Residual stress development in selective laser-melted Ti6Al4V: a parametric thermal modelling approach H Ali, H Ghadbeigi, K Mumtaz The International Journal of Advanced Manufacturing Technology 97, 2621-2633, 2018 | 112 | 2018 |
Thermal expansion coefficients in Invar processed by selective laser melting NJ Harrison, I Todd, K Mumtaz Journal of Materials Science 52, 10517-10525, 2017 | 87 | 2017 |
In situ alloying of elemental Al-Cu12 feedstock using selective laser melting R Martinez, I Todd, K Mumtaz Virtual and Physical Prototyping 14 (3), 242-252, 2019 | 68 | 2019 |
A microstructure sensitive model for deformation of Ti-6Al-4V describing Cast-and-Wrought and Additive Manufacturing morphologies MA Galindo-Fernández, K Mumtaz, PEJ Rivera-Díaz-del-Castillo, ... Materials & Design 160, 350-362, 2018 | 68 | 2018 |
REVIEWED, August 17 2011 K Mumtaz, P Vora, N Hopkinson | 64* | 2011 |
Method for forming an object MT Furlong, N Hopkinson, KA Mumtaz US Patent 8,186,414, 2012 | 61 | 2012 |
Investigation into the material properties of wooden composite structures with in-situ fibre reinforcement using additive manufacturing K Pitt, O Lopez-Botello, AD Lafferty, I Todd, K Mumtaz Composites Science and Technology 138, 32-39, 2017 | 57 | 2017 |
Additive manufacturing of high density carbon fibre reinforced polymer composites B Karaş, PJ Smith, JPA Fairclough, K Mumtaz Additive Manufacturing 58, 103044, 2022 | 46 | 2022 |