[1] ISO 679 (2009): Cement – Test methods – Determination of strength. Beuth Verlag. 34 p.

[2] Sandberg, P. (2016): Direct reactivity measurements by isothermal calorimetry in cement process control. World Cement (May/2016): pp. 101–106

[3] Sandberg, P.; Zacharias, M. (2017): Moving towards automation. World Cement (July/2017): pp. 37-41

[4] Sandberg, P.; Enders, M.; Teutenberg, R. (2020): When dreams come true. World Cement (November/2020): pp. 58-63

[5] Neumann, Th.; Sieber, G.; Marton, M.; Enders M. (2020): From process control to quality prediction: Artificial intelligence in clinkering process control. ZKG Cement Lime Gypsum (03/2021): pp. 31-40

[6] Wadsö, L.; Winnefeld, F.; Riding, K.; Sandberg, P. (2016): Calorimetry. In: Scrivener, K. et al.: A practical guide to Microstructural Analyses of Cementitious Materials. CRC Press, Boca Raton (2016): pp. 37-74

[7] Enders, M. and Häseli, U. (2011): Reactions of Alkalis, Chlorine and Sulfur during Clinker Production. Cement International (3/2011): pp. 38-53

[8] Enders, M.; Teutenberg, R. and Sandberg, P. (2019): Automated calorimetry – the missing link in quality control. Int. Cem. Rev. (June/2020): pp. 72-74