Felipe Cerdas
Cited by
Cited by
Life cycle assessment of 3D printed products in a distributed manufacturing system
F Cerdas, M Juraschek, S Thiede, C Herrmann
Journal of Industrial Ecology 21 (S1), S80-S93, 2017
Collaboration platform for enabling industrial symbiosis: application of the by-product exchange network model
B Raabe, JSC Low, M Juraschek, C Herrmann, TB Tjandra, YT Ng, ...
Procedia Cirp 61, 263-268, 2017
Exploring the effect of increased energy density on the environmental impacts of traction batteries: A comparison of energy optimized lithium-ion and lithium-sulfur batteries …
F Cerdas, P Titscher, N Bognar, R Schmuch, M Winter, A Kwade, ...
Energies 11 (1), 150, 2018
Life cycle assessment of natural graphite production for lithium-ion battery anodes based on industrial primary data
P Engels, F Cerdas, T Dettmer, C Frey, J Hentschel, C Herrmann, ...
Journal of Cleaner Production 336, 130474, 2022
Life cycle assessment of a disposable and a reusable surgery instrument set for spinal fusion surgeries
A Leiden, F Cerdas, D Noriega, J Beyerlein, C Herrmann
Resources, Conservation and Recycling 156, 104704, 2020
A big data analytics approach to develop industrial symbioses in large cities
S Bin, Y Zhiquan, LSC Jonathan, DK Jiewei, D Kurle, F Cerdas, ...
Procedia CIRP 29, 450-455, 2015
Simulation-based assessment of the energy demand in battery cell manufacturing
M Thomitzek, N Von Drachenfels, F Cerdas, C Herrmann, S Thiede
Procedia Cirp 80, 126-131, 2019
Sustainability assessment and engineering of emerging aircraft technologies—Challenges, methods and tools
S Pinheiro Melo, A Barke, F Cerdas, C Thies, M Mennenga, TS Spengler, ...
Sustainability 12 (14), 5663, 2020
Material and energy flow analysis for environmental and economic impact assessment of industrial recycling routes for lithium-ion traction batteries
S Blömeke, C Scheller, F Cerdas, C Thies, R Hachenberger, M Gonter, ...
Journal of cleaner production 377, 134344, 2022
Shop-floor life cycle assessment
F Cerdas, S Thiede, M Juraschek, A Turetskyy, C Herrmann
Procedia CIRP 61, 393-398, 2017
Integrated Computational Life Cycle Engineering—Application to the case of electric vehicles
F Cerdas, S Thiede, C Herrmann
CIRP Annals 67 (1), 25-28, 2018
Life cycle assessment of an automotive factory: Identifying challenges for the decarbonization of automotive production–A case study
M Gebler, JF Cerdas, S Thiede, C Herrmann
Journal of cleaner production 270, 122330, 2020
Improved visualization in LCA through the application of cluster heat maps
F Cerdas, A Kaluza, S Erkisi-Arici, S Böhme, C Herrmann
Procedia cirp 61, 732-737, 2017
LCE and Electromobility
F Cerdas
Integrated Computational Life Cycle Engineering for Traction Batteries, 11-55, 2022
Environmental aspects of the recycling of lithium-ion traction batteries
F Cerdas, S Andrew, S Thiede, C Herrmann
Recycling of Lithium-Ion Batteries: the LithoRec Way, 267-288, 2018
Defining circulation factories–a pathway towards factories of the future
F Cerdas, D Kurle, S Andrew, S Thiede, C Herrmann, Y Zhiquan, ...
Procedia CIRP 29, 627-632, 2015
Life Cycle Engineering of future aircraft systems: the case of eVTOL vehicles
SP Melo, F Cerdas, A Barke, C Thies, TS Spengler, C Herrmann
Procedia CIRP 90, 297-302, 2020
Exploring the opportunities of system of systems engineering to complement sustainable manufacturing and life cycle engineering
M Mennenga, F Cerdas, S Thiede, C Herrmann
Procedia CIRP 80, 637-642, 2019
A modular LCA/LCC-modelling concept for evaluating material and process innovations in carbon fibre manufacturing
T Groetsch, C Creighton, R Varley, A Kaluza, A Dér, F Cerdas, ...
Procedia CIRP 98, 529-534, 2021
A Concept for Blockchain-Based LCA and its Application in the Context of Aircraft MRO
M Rolinck, S Gellrich, C Bode, M Mennenga, F Cerdas, J Friedrichs, ...
Procedia CIRP 98, 394-399, 2021
The system can't perform the operation now. Try again later.
Articles 1–20