README Dataset title ------------- Digitised experimental data for figures 8 and 9 of: “Asymptotic analysis of a kinematic model for coffee ring deposition” Associated article ------------------ Oliver, J. M., Melvin, L. and Moore, M. R. (YEAR). Asymptotic analysis of a kinematic model for coffee ring deposition. Journal of Fluid Mechanics, VOLUME, ARTICLE_OR_PAGE_NUMBERS. DOI: ARTICLE_DOI. Article status -------------- Accepted for publication in Journal of Fluid Mechanics. Dataset citation ---------------- Oliver, J. M., Melvin, L. and Moore, M. R. (YEAR). Digitized experimental data for figures 8 and 9 of “Asymptotic analysis of a kinematic model for coffee ring deposition”. Oxford University Research Archive. DOI: DATASET_DOI. Authors and affiliations ------------------------ James M. Oliver Mathematical Institute, University of Oxford, Andrew Wiles Building, Radcliffe Observatory Quarter, Woodstock Road, Oxford OX2 6GG, UK Lewis Melvin Department of Physics & Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UK Madeleine R. Moore Department of Mathematical Sciences, Loughborough University, Loughborough, Leicestershire LE11 3TU, UK Corresponding author -------------------- James M. Oliver Email: james.oliver@maths.ox.ac.uk Date ---- 4 May 2026 Repository ---------- Oxford University Research Archive (ORA) Repository record: DATASET_URL_OR_RECORD_ID Dataset DOI: DATASET_DOI Data availability ----------------- The data supporting this study are available in the Oxford University Research Archive at DATASET_DOI. Description ----------- This dataset contains digitised values extracted from figures in previously published papers. These datasets were generated by digitising figures from the source papers listed below. They are therefore derived data and do not constitute new experimental measurements. The data support figures 8 and 9 of the associated Journal of Fluid Mechanics article. The source article and figure number for each XML data file are listed in the table below. The XML data files were generated from digitised data using the Digitizer application of Wilkening (2025), exported from MATLAB using writestruct, and may be read in MATLAB using readstruct. In each XML file, the the independent variable is stored in out.indp.vec and the dependent values in out.depValues (field names as exported by MATLAB writestruct). File format ----------- The data files are XML files exported from MATLAB. They can be read in MATLAB using readstruct. Citation and provenance note ---------------------------- Because these files contain derived data digitised from published figures, users should cite both this dataset and the original source papers listed below, and the associated Journal of Fluid Mechanics article once published. Where repository metadata permits, the original source papers should also be entered as related works using the relation type IsDerivedFrom. Data files ---------- Manuscript figure File name Source reference Source figure Notes ⸻ 8 LiEtAl2016_Figure4b.xml Li et al. (2016) Figure 4b Digitized data 8 BertelootEtAl2012_Figure5a_data1.xml Berteloot et al. (2012) Figure 5a Data series 1 8 BertelootEtAl2012_Figure5a_data2.xml Berteloot et al. (2012) Figure 5a Data series 2 8 BertelootEtAl2012_Figure5a_data3.xml Berteloot et al. (2012) Figure 5a Data series 3 8 KajiyaEtAl2008_Figure2_data1.xml Kajiya et al. (2008) Figure 2 Data series 1 8 KajiyaEtAl2008_Figure2_data2.xml Kajiya et al. (2008) Figure 2 Data series 2 8 KajiyaEtAl2008_Figure2_data3.xml Kajiya et al. (2008) Figure 2 Data series 3 8 KajiyaEtAl2011_Figure3b_data1.xml Kajiya and Doi (2011) Figure 3b Data series 1 8 KajiyaEtAl2011_Figure3b_data2.xml Kajiya and Doi (2011) Figure 3b Data series 2 8 KajiyaEtAl2011_Figure3b_data3.xml Kajiya and Doi (2011) Figure 3b Data series 3 8 MarinEtAl2011_SuppMat_Figure3.xml Marin et al. (2011a) Supp. Fig. 3 Digitized data 8 KajiyaEtAl2008_Figure7b_Digitized1.xml Kajiya et al. (2008) Figure 7b Data series 1 8 KajiyaEtAl2008_Figure7b_Digitized2.xml Kajiya et al. (2008) Figure 7b Data series 2 9 BourrianneEtAl2021_Figure3a_Digitized1.xml Bourrianne et al. (2021) Figure 3a Data series 1 9 BourrianneEtAl2021_Figure3a_Digitized2.xml Bourrianne et al. (2021) Figure 3a Data series 2 9 BourrianneEtAl2021_Figure3a_Digitized3.xml Bourrianne et al. (2021) Figure 3a Data series 3 9 GaoEtAl2018_Figure2c_Digitized.xml Gao et al. (2018) Figure 2c Digitized data 9 KajiyaEtAl2008_Figure7b_Digitized1.xml Kajiya et al. (2008) Figure 7b Data series 1 9 KajiyaEtAl2008_Figure7b_Digitized2.xml Kajiya et al. (2008) Figure 7b Data series 2 9 LiEtal2016_Figure1_Digitized.xml Li et al. (2016) Figure 1 Digitized data 9 MallaEtAl2019Figure6a_Digitized1.xml Malla et al. (2019) Figure 6a Data series 1 9 MallaEtAl2019Figure6a_Digitized2.xml Malla et al. (2019) Figure 6a Data series 2 9 MallaEtAl2019Figure6a_Digitized3.xml Malla et al. (2019) Figure 6a Data series 3 Related identifiers for repository metadata ------------------------------------------- The following source papers should be entered as related works in the repository metadata where possible, using relation type IsDerivedFrom. 10.1016/j.jcis.2011.10.053 10.1021/la8017858 10.1678/RHEOLOGY.39.17 10.1038/srep24628 10.1103/PhysRevLett.107.085502 10.1063/1.3640018 10.1039/D1SM00832C 10.1007/s11431-017-9202-y 10.1016/j.colsurfa.2019.01.028 The associated Journal of Fluid Mechanics article should be linked to this dataset once available using the appropriate repository relation type, such as IsSupplementTo, IsReferencedBy or IsSupplementedBy, depending on the repository metadata options available. Licence ------- This dataset is made available under the Creative Commons Attribution 4.0 International licence (CC BY 4.0). Licence URL: https://creativecommons.org/licenses/by/4.0/ AI assistance acknowledgement ----------------------------- ChatGPT Edu (OpenAI) was used by the first author to assist in drafting and proofreading this README file, and to help check the formatting and consistency of the dataset bibliography and filename table. The dataset, filenames, source-paper identifications, bibliographic details and final wording were checked and approved by the authors, who remain responsible for the accuracy and integrity of the deposited material. ChatGPT was not used to generate, digitize or analyse the experimental data. Bibliography ------------ Berteloot, G., Hoang, A., Daerr, A., Kavehpour, H. P., Lequeux, F. and Limat, L. (2012). Evaporation of a sessile droplet: Inside the coffee stain. J. Colloid Interface Sci., 370, 155-161. DOI: 10.1016/j.jcis.2011.10.053. Kajiya, T., Kaneko, D. and Doi, M. (2008). Dynamical visualization of Coffee Stain Phenomenon in droplets of polymer solution via fluorescent microscopy. Langmuir, 24, 12369-12374. DOI: 10.1021/la8017858. Kajiya, T. and Doi, M. (2011). Dynamics of drying process of polymer solution droplets: analysis of polymer transport and control of film profiles. J. Soc. Rheol. Japan, 39, 17-28. DOI: 10.1678/RHEOLOGY.39.17. Li, Y., Yang, Q., Li, M. and Song, Y. (2016). Rate-dependent interface capture beyond the coffee-ring effect. Sci. Rep., 6, 24628. DOI: 10.1038/srep24628. Marin, A. G., Gelderblom, H., Lohse, D. and Snoeijer, J. H. (2011a). Order-to-disorder transition in ring-shaped colloidal stains. Phys. Rev. Lett., 107, 085502. DOI: 10.1103/PhysRevLett.107.085502. Marin, A. G., Gelderblom, H., Lohse, D. and Snoeijer, J. H. (2011b). Rush-hour in evaporating coffee drops. Phys. Fluids, 23, 091111. DOI: 10.1063/1.3640018. Bourrianne, P., Lilin, P., Sintes, G., Nirca, T., McKinley, G. H. and Bischofberger, I. (2021). Crack morphologies in drying suspension drops. Soft Matter, 17, 8832-8837. DOI: 10.1039/D1SM00832C. Gao, M., Huang, A. and Zhao, Y. (2018). Formation of wavy-ring crack in drying droplet of protein solutions. Sci. China Technol. Sci., 61, 949-958. DOI: 10.1007/s11431-017-9202-y. Malla, L. K., Bhardwaj, R. and Neild, A. (2019). Analysis of profile and morphology of colloidal deposits obtained from evaporating sessile droplets. Colloid Surf. A, 567, 150-160. DOI: 10.1016/j.colsurfa.2019.01.028. Wilkening, C. (2025). Digitizer. MATLAB Central File Exchange. Retrieved 5 February 2025.