![PDF] 647. The dehydration of gypsum. Part III. A study of the process of dehydration and rehydration of gypsum by adsorption methods by S. J. Gregg, E. G. J. Willing · 10.1039/jr9510002916 · OA.mg PDF] 647. The dehydration of gypsum. Part III. A study of the process of dehydration and rehydration of gypsum by adsorption methods by S. J. Gregg, E. G. J. Willing · 10.1039/jr9510002916 · OA.mg](https://og.oa.mg/647.%20The%20dehydration%20of%20gypsum.%20Part%20III.%20A%20study%20of%20the%20process%20of%20dehydration%20and%20rehydration%20of%20gypsum%20by%20adsorption%20methods.png?author=%20S.%20J.%20Gregg,%20E.%20G.%20J.%20Willing)
PDF] 647. The dehydration of gypsum. Part III. A study of the process of dehydration and rehydration of gypsum by adsorption methods by S. J. Gregg, E. G. J. Willing · 10.1039/jr9510002916 · OA.mg
![Measured temperature evolution inside the gypsum sample at different... | Download Scientific Diagram Measured temperature evolution inside the gypsum sample at different... | Download Scientific Diagram](https://www.researchgate.net/publication/241653861/figure/fig3/AS:667637503758342@1536188593441/Measured-temperature-evolution-inside-the-gypsum-sample-at-different-positions.png)
Measured temperature evolution inside the gypsum sample at different... | Download Scientific Diagram
![Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.8b03476/asset/images/large/ao-2018-03476e_0002.jpeg)
Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega
![PDF] Direct formation of the γ-CaSO4 phase in dehydration process of gypsum: In situ FTIR study | Semantic Scholar PDF] Direct formation of the γ-CaSO4 phase in dehydration process of gypsum: In situ FTIR study | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/3293c169b132901a06ff83fb21e155f2111e3c2a/3-Table1-1.png)
PDF] Direct formation of the γ-CaSO4 phase in dehydration process of gypsum: In situ FTIR study | Semantic Scholar
![Experimental study of the dehydration reactions gypsum-bassanite and bassanite-anhydrite at high pressure: Indication of anomalous behavior of H2O at high pressure in the temperature range of 50–300°C: The Journal of Chemical Physics: Experimental study of the dehydration reactions gypsum-bassanite and bassanite-anhydrite at high pressure: Indication of anomalous behavior of H2O at high pressure in the temperature range of 50–300°C: The Journal of Chemical Physics:](https://aip.scitation.org/action/showOpenGraphArticleImage?doi=10.1063/1.2826321&id=images/medium/1.2826321.figures.f2.gif)
Experimental study of the dehydration reactions gypsum-bassanite and bassanite-anhydrite at high pressure: Indication of anomalous behavior of H2O at high pressure in the temperature range of 50–300°C: The Journal of Chemical Physics:
![Fast in-situ X-ray scattering reveals stress sensitivity of gypsum dehydration kinetics | Communications Materials Fast in-situ X-ray scattering reveals stress sensitivity of gypsum dehydration kinetics | Communications Materials](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs43246-021-00156-9/MediaObjects/43246_2021_156_Fig1_HTML.png)
Fast in-situ X-ray scattering reveals stress sensitivity of gypsum dehydration kinetics | Communications Materials
![Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum](https://www.zkg.de/imgs/1/7/6/0/9/2/5/Process_VDZ_Figure_3_links.JPG-a3f20b7bd543607a.jpeg)
Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum
![Snapshots taken at di ff erent times of gypsum dehydration process at... | Download Scientific Diagram Snapshots taken at di ff erent times of gypsum dehydration process at... | Download Scientific Diagram](https://www.researchgate.net/publication/233781039/figure/fig1/AS:300035922251780@1448545546327/Snapshots-taken-at-di-ff-erent-times-of-gypsum-dehydration-process-at-313-K-and-100-Pa.png)
Snapshots taken at di ff erent times of gypsum dehydration process at... | Download Scientific Diagram
![Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum](https://www.zkg.de/imgs/1/7/6/0/9/2/5/Process_VDZ_Figure_1.JPG-e188bea464a9a9f9.jpeg)
Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum
![PDF] Direct formation of the γ-CaSO4 phase in dehydration process of gypsum: In situ FTIR study | Semantic Scholar PDF] Direct formation of the γ-CaSO4 phase in dehydration process of gypsum: In situ FTIR study | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/3293c169b132901a06ff83fb21e155f2111e3c2a/3-Figure1-1.png)
PDF] Direct formation of the γ-CaSO4 phase in dehydration process of gypsum: In situ FTIR study | Semantic Scholar
![Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.8b03476/asset/images/large/ao-2018-03476e_0003.jpeg)
Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega
![Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum](https://www.zkg.de/imgs/1/7/6/0/9/2/5/Process_VDZ_Figure_2.JPG-710ad78d0169de69.jpeg)
Gypsum dehydration potential and mean residence time of a stirred media mill during ultra-fine grinding of cement clinker and gypsum - Cement Lime Gypsum
![Development of a solid reaction kinetics gypsum dehydration model appropriate for CFD simulation of gypsum plasterboard wall assemblies exposed to fire - ScienceDirect Development of a solid reaction kinetics gypsum dehydration model appropriate for CFD simulation of gypsum plasterboard wall assemblies exposed to fire - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0379711213000349-gr1.jpg)
Development of a solid reaction kinetics gypsum dehydration model appropriate for CFD simulation of gypsum plasterboard wall assemblies exposed to fire - ScienceDirect
![Dehydration of gypsum with temperature, (after Klein and Hurlbut, 1985) | Download Scientific Diagram Dehydration of gypsum with temperature, (after Klein and Hurlbut, 1985) | Download Scientific Diagram](https://www.researchgate.net/publication/299134452/figure/fig1/AS:341798951112715@1458502628767/Dehydration-of-gypsum-with-temperature-after-Klein-and-Hurlbut-1985.png)
Dehydration of gypsum with temperature, (after Klein and Hurlbut, 1985) | Download Scientific Diagram
![Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.8b03476/asset/images/medium/ao-2018-03476e_0007.gif)
Dehydration Pathways of Gypsum and the Rehydration Mechanism of Soluble Anhydrite γ-CaSO4 | ACS Omega
![Dehydration and stabilization of unconsolidated laminated lake sediments using gypsum for the preparation of thin sections Dehydration and stabilization of unconsolidated laminated lake sediments using gypsum for the preparation of thin sections](https://www.degruyter.com/document/doi/10.1515/geo-2020-0211/asset/graphic/j_geo-2020-0211_fig_004.jpg)