Alexander Kaluza
Cited by
Cited by
Life cycle engineering of lightweight structures
C Herrmann, W Dewulf, M Hauschild, A Kaluza, S Kara, S Skerlos
Cirp Annals 67 (2), 651-672, 2018
Enabling product development engineers to select and combine methods for sustainable design
T Buchert, A Kaluza, FA Halstenberg, K Lindow, H Hayka, R Stark
Procedia CIRP 15, 413-418, 2014
Concurrent design & life cycle engineering in automotive lightweight component development
A Kaluza, S Kleemann, T Fröhlich, C Herrmann, T Vietor
Procedia Cirp 66, 16-21, 2017
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
Modelling and analysis of the energy intensity in polyacrylonitrile (PAN) precursor and carbon fibre manufacturing
A Dér, N Dilger, A Kaluza, C Creighton, S Kara, R Varley, C Herrmann, ...
Journal of Cleaner Production 303, 127105, 2021
Life cycle engineering of carbon fibres for lightweight structures
A Dér, A Kaluza, D Kurle, C Herrmann, S Kara, R Varley
Procedia Cirp 69, 43-48, 2018
Analyzing decision-making in automotive design towards life cycle engineering for hybrid lightweight components
A Kaluza, S Kleemann, F Broch, C Herrmann, T Vietor
Procedia CIRP 50, 825-830, 2016
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
Designing learning environments for energy efficiency through model scale production processes
A Kaluza, M Juraschek, B Neef, R Pittschelllis, G Posselt, S Thiede, ...
Procedia CIRP 32, 41-46, 2015
Life cycle engineering based on visual analytics
A Kaluza, S Gellrich, F Cerdas, S Thiede, C Herrmann
Procedia CIRP 69, 37-42, 2018
Integration of energy oriented manufacturing simulation into the life cycle evaluation of lightweight body parts
A Dér, A Kaluza, L Reimer, C Herrmann, S Thiede
International Journal of Precision Engineering and Manufacturing-Green …, 2022
Exploring the potentials of mixed reality for life cycle engineering
M Juraschek, L Büth, F Cerdas, A Kaluza, S Thiede, C Herrmann
Procedia CIRP 69, 638-643, 2018
Design of eco-efficient body parts for electric vehicles considering life cycle environmental information
L Reimer, A Kaluza, F Cerdas, J Meschke, T Vietor, C Herrmann
Sustainability 12 (14), 5838, 2020
Assessment of end-of-life strategies for automation technology components
M Barkmeyer, A Kaluza, N Pastewski, S Thiede, C Herrmann
Procedia CIRP 61, 34-39, 2017
Definition and reference framework for life cycle technologies in life cycle engineering-a case study on all solid state traction batteries
N Dilger, A Kaluza, A Kiesewetter, F Cerdas, S Blume, S Zellmer, ...
Procedia CIRP 98, 217-222, 2021
Integrating environmental impact targets in early phases of production planning for lightweight structures
A Dér, C Gabrisch, A Kaluza, F Cerdas, S Thiede, C Herrmann
Procedia CIRP 80, 168-173, 2019
Life cycle evaluation of factories: the case of a car body welding line with pneumatic actuators
T Heinemann, A Kaluza, S Thiede, D Ditterich, J Linzbach, C Herrmann
Advances in Production Management Systems. Innovative and Knowledge-Based …, 2014
Implementing mixed reality in automotive life cycle engineering: A visual analytics based approach
A Kaluza, M Juraschek, L Büth, F Cerdas, C Herrmann
Procedia CIRP 80, 717-722, 2019
Integrating life-cycle assessment into automotive manufacturing—a review-based framework to measure the ecological performance of production technologies
M Gebler, F Cerdas, A Kaluza, R Meininghaus, C Herrmann
Progress in Life Cycle Assessment, 45-55, 2019
Recycling of plastic waste using fused deposition modeling as a production process
M Juraschek, V Bhakar, G Posselt, A Kaluza, S Böhme, C Herrmann, ...
Indo-German Conference on Sustainability (IGCS), 28-33, 2016
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