| An introduction to sandwich construction D Zenkert, HG Allen Engineering materials advisory services, 1995 | 1557 | 1995 |
| The handbook of sandwich construction D Zenkert Engineering Materials Advisory Services, 1997 | 948 | 1997 |
| Fatigue of foam core sandwich beams—1: undamaged specimens M Burman, D Zenkert International journal of fatigue 19 (7), 551-561, 1997 | 217 | 1997 |
| Indentation study of foam core sandwich composite panels V Rizov, A Shipsha, D Zenkert Composite structures 69 (1), 95-102, 2005 | 216 | 2005 |
| Structural battery composites: a review LE Asp, M Johansson, G Lindbergh, J Xu, D Zenkert Functional Composites and Structures 1 (4), 042001, 2019 | 206 | 2019 |
| PAN-based carbon fiber negative electrodes for structural lithium-ion batteries MH Kjell, E Jacques, D Zenkert, M Behm, G Lindbergh Journal of The Electrochemical Society 158 (12), A1455, 2011 | 205 | 2011 |
| A structural battery and its multifunctional performance LE Asp, K Bouton, D Carlstedt, S Duan, R Harnden, W Johannisson, ... Advanced Energy and Sustainability Research 2 (3), 2000093, 2021 | 167 | 2021 |
| Corrugated all-composite sandwich structures. Part 1: Modeling S Kazemahvazi, D Zenkert Composites Science and Technology 69 (7-8), 913-919, 2009 | 155 | 2009 |
| Damage tolerance assessment of composite sandwich panels with localised damage D Zenkert, A Shipsha, P Bull, B Hayman Composites Science and Technology 65 (15-16), 2597-2611, 2005 | 145 | 2005 |
| Corrugated all-composite sandwich structures. Part 2: Failure mechanisms and experimental programme S Kazemahvazi, D Tanner, D Zenkert Composites Science and Technology 69 (7-8), 920-925, 2009 | 144 | 2009 |
| Structural lithium ion battery electrolytes via reaction induced phase-separation N Ihrner, W Johannisson, F Sieland, D Zenkert, M Johansson Journal of Materials Chemistry A 5 (48), 25652-25659, 2017 | 142 | 2017 |
| Fatigue of foam core sandwich beams—2: effect of initial damage M Burman, D Zenkert International journal of fatigue 19 (7), 563-578, 1997 | 134 | 1997 |
| Tension, compression and shear fatigue of a closed cell polymer foam D Zenkert, M Burman Composites Science and Technology 69 (6), 785-792, 2009 | 128 | 2009 |
| Multifunctional performance of a carbon fiber UD lamina electrode for structural batteries W Johannisson, N Ihrner, D Zenkert, M Johansson, D Carlstedt, LE Asp, ... Composites Science and Technology 168, 81-87, 2018 | 127 | 2018 |
| Compression-after-impact strength of sandwich panels with core crushing damage A Shipsha, D Zenkert Applied Composite Materials 12, 149-164, 2005 | 120 | 2005 |
| Lithium iron phosphate coated carbon fiber electrodes for structural lithium ion batteries J Hagberg, HA Maples, KSP Alvim, J Xu, W Johannisson, A Bismarck, ... Composites Science and Technology 162, 235-243, 2018 | 119 | 2018 |
| Impact of electrochemical cycling on the tensile properties of carbon fibres for structural lithium-ion composite batteries E Jacques, MH Kjell, D Zenkert, G Lindbergh, M Behm, M Willgert Composites Science and Technology 72 (7), 792-798, 2012 | 119 | 2012 |
| Failure mechanisms in composite panels subjected to underwater impulsive loads F Latourte, D Gregoire, D Zenkert, X Wei, HD Espinosa Journal of the Mechanics and Physics of Solids 59 (8), 1623-1646, 2011 | 111 | 2011 |
| Expansion of carbon fibres induced by lithium intercalation for structural electrode applications E Jacques, MH Kjell, D Zenkert, G Lindbergh, M Behm Carbon 59, 246-254, 2013 | 106 | 2013 |
| Bicontinuous electrolytes via thermally initiated polymerization for structural lithium ion batteries LM Schneider, N Ihrner, D Zenkert, M Johansson ACS Applied Energy Materials 2 (6), 4362-4369, 2019 | 105 | 2019 |
Sohrab KazemahvaziUniversity of Cambridge在 kth.se 的电子邮件经过验证
