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Effect of temperature curing on properties and hydration of wollastonite blended magnesium potassium phosphate cements
Xu, B., Winnefeld, F., & Lothenbach, B. (2021). Effect of temperature curing on properties and hydration of wollastonite blended magnesium potassium phosphate cements. Cement and Concrete Research, 142, 106370 (16 pp.). https://doi.org/10.1016/j.cemconres.2021.106370
Influence of wollastonite on hydration and properties of magnesium potassium phosphate cements
Xu, B., Lothenbach, B., & Winnefeld, F. (2020). Influence of wollastonite on hydration and properties of magnesium potassium phosphate cements. Cement and Concrete Research, 131, 106012 (21 pp.). https://doi.org/10.1016/j.cemconres.2020.106012
Bioinspired struvite mineralization for fire-resistant wood
Guo, H., Luković, M., Mendoza, M., Schlepütz, C. M., Griffa, M., Xu, B., … Burgert, I. (2019). Bioinspired struvite mineralization for fire-resistant wood. ACS Applied Materials and Interfaces, 11(5), 5427-5434. https://doi.org/10.1021/acsami.8b19967
Thermodynamic data for magnesium (potassium) phosphates
Lothenbach, B., Xu, B., & Winnefeld, F. (2019). Thermodynamic data for magnesium (potassium) phosphates. Applied Geochemistry, 111, 104450 (21 pp.). https://doi.org/10.1016/j.apgeochem.2019.104450
Influence of magnesium-to-phosphate ratio and water-to-cement ratio on hydration and properties of magnesium potassium phosphate cements
Xu, B., Winnefeld, F., Kaufmann, J., & Lothenbach, B. (2019). Influence of magnesium-to-phosphate ratio and water-to-cement ratio on hydration and properties of magnesium potassium phosphate cements. Cement and Concrete Research, 123, 105781 (15 pp.). https://doi.org/10.1016/j.cemconres.2019.105781
Hydration of magnesium potassium phosphate cements: experi-mental findings and thermodynamic modelling
Xu, B., Winnefeld, F., & Lothenbach, B. (2018). Hydration of magnesium potassium phosphate cements: experi-mental findings and thermodynamic modelling (pp. 1-4). Presented at the NUWCEM 2018. Cement-based materials for nuclear wastes. .
Properties of fly ash blended magnesium potassium phosphate mortars: effect of the ratio between fly ash and magnesia
Xu, B., Lothenbach, B., & Ma, H. (2018). Properties of fly ash blended magnesium potassium phosphate mortars: effect of the ratio between fly ash and magnesia. Cement and Concrete Composites, 90, 169-177. https://doi.org/10.1016/j.cemconcomp.2018.04.002
Reaction mechanism of magnesium potassium phosphate cement with high magnesium-to-phosphate ratio
Xu, B., Lothenbach, B., Leemann, A., & Winnefeld, F. (2018). Reaction mechanism of magnesium potassium phosphate cement with high magnesium-to-phosphate ratio. Cement and Concrete Research, 108, 140-151. https://doi.org/10.1016/j.cemconres.2018.03.013
Potential to design magnesium potassium phosphate cement paste based on an optimal magnesia-to-phosphate ratio
Ma, H., & Xu, B. (2017). Potential to design magnesium potassium phosphate cement paste based on an optimal magnesia-to-phosphate ratio. Materials and Design, 118, 81-88. https://doi.org/10.1016/j.matdes.2017.01.012
Formation mechanism of efflorescence in magnesium potassium phosphate cement (MKPC)-based materials
Xu, B., Lothenbach, B., & Winnefeld, F. (2017). Formation mechanism of efflorescence in magnesium potassium phosphate cement (MKPC)-based materials (p. 026 (3 pp.). Presented at the 37th cement and concrete science conference. .
Influence of fly ash on compressive strength and micro-characteristics of magnesium potassium phosphate cement mortars
Xu, B., Ma, H., Shao, H., Li, Z., & Lothenbach, B. (2017). Influence of fly ash on compressive strength and micro-characteristics of magnesium potassium phosphate cement mortars. Cement and Concrete Research, 99, 86-94. https://doi.org/10.1016/j.cemconres.2017.05.008