| A targeted material selection process for polymers in laser sintering GM Vasquez, CE Majewski, B Haworth, N Hopkinson Additive Manufacturing 1, 127-138, 2014 | 135 | 2014 |
| Degree of particle melt in Nylon‐12 selective laser‐sintered parts H Zarringhalam, C Majewski, N Hopkinson Rapid Prototyping Journal 15 (2), 126-132, 2009 | 116 | 2009 |
| Effect of the degree of particle melt on mechanical properties in selective laser-sintered Nylon-12 parts C Majewski, H Zarringhalam, N Hopkinson Proceedings of the Institution of Mechanical Engineers, Part B: Journal of …, 2008 | 106 | 2008 |
| Quantifying the degree of particle melt in Selective Laser Sintering® N Hopkinson, CE Majewski, H Zarringhalam CIRP annals 58 (1), 197-200, 2009 | 104 | 2009 |
| Manufacturing at double the speed JM Allwood, THC Childs, AT Clare, AKM De Silva, V Dhokia, IM Hutchings, ... Journal of Materials Processing Technology 229, 729-757, 2016 | 100 | 2016 |
| Effect of section thickness and build orientation on tensile properties and material characteristics of laser sintered nylon‐12 parts C Majewski, N Hopkinson Rapid Prototyping Journal 17 (3), 176-180, 2011 | 89 | 2011 |
| Understanding pore formation and the effect on mechanical properties of High Speed Sintered polyamide-12 parts: A focus on energy input Z Zhu, C Majewski Materials & Design 194, 108937, 2020 | 60 | 2020 |
| Study into the recyclability of a thermoplastic polyurethane powder for use in laser sintering K Plummer, M Vasquez, C Majewski, N Hopkinson Proceedings of the Institution of Mechanical Engineers, Part B: Journal of …, 2012 | 52 | 2012 |
| Effect of infra‐red power level on the sintering behaviour in the high speed sintering process CE Majewski, D Oduye, HR Thomas, N Hopkinson Rapid prototyping journal 14 (3), 155-160, 2008 | 51 | 2008 |
| Characterisation and correlation of areal surface texture with processing parameters and porosity of High Speed Sintered parts Z Zhu, S Lou, C Majewski Additive Manufacturing 36, 101402, 2020 | 46 | 2020 |
| Material ratio curve of 3D surface topography of additively manufactured parts: An attempt to characterise open surface pores S Lou, Z Zhu, W Zeng, C Majewski, PJ Scott, X Jiang Surface Topography: Metrology and Properties 9 (1), 015029, 2021 | 44 | 2021 |
| Materials for high speed sintering A Ellis, CJ Noble, L Hartley, C Lestrange, N Hopkinson, C Majewski Journal of Materials Research 29 (17), 2080-2085, 2014 | 38 | 2014 |
| Use of silver-based additives for the development of antibacterial functionality in Laser Sintered polyamide 12 parts RD Turner, JR Wingham, TE Paterson, J Shepherd, C Majewski Scientific reports 10 (1), 892, 2020 | 37 | 2020 |
| Effects of degree of particle melt and crystallinity in SLS Nylon-12 parts CE Majewski, H Zarringhalam, N Hopkinson | 36 | 2008 |
| The design and assessment of bio-inspired additive manufactured stab-resistant armour AA Johnson, GA Bingham, CE Majewski Virtual and Physical Prototyping 13 (2), 49-57, 2018 | 35 | 2018 |
| Effect of bed temperature and infra-red lamp power on the mechanical properties of parts produced using high-speed sintering CE Majewski, BS Hobbs, N Hopkinson Virtual and physical prototyping 2 (2), 103-110, 2007 | 30 | 2007 |
| Nanoclay/polymer composite powders for use in laser sintering applications: Effects of nanoclay plasma treatment A Almansoori, C Majewski, C Rodenburg Jom 69 (11), 2278-2285, 2017 | 26 | 2017 |
| Degradation of Laser Sintered polyamide 12 parts due to accelerated exposure to ultraviolet radiation ASD Shackleford, RJ Williams, R Brown, JR Wingham, C Majewski Additive Manufacturing 46, 102132, 2021 | 23 | 2021 |
| Evaluating the effect of solid lubricant inclusion on the friction and wear properties of Laser Sintered Polyamide-12 components K Nar, C Majewski, R Lewis Wear 522, 204873, 2023 | 20 | 2023 |
| A comprehensive characterisation of Laser Sintered Polyamide-12 surfaces K Nar, C Majewski, R Lewis Polymer Testing 106, 107450, 2022 | 19 | 2022 |
Dr. Andrew JohnsonLoughborough UniversityVerified email at lboro.ac.uk
