Data sets for "Structure and related properties of amorphous magnesium aluminosilicates"

1139 218 16059 2 53371 document 16059 Fig4_Sofk_ND_50molpc_SiO2.agr text/plain a54241dda8e881d4d0db9f8d0ead5706 MD5 338507 2022-05-30 16:26:52 https://researchdata.bath.ac.uk/1139/33/Fig4_Sofk_ND_50molpc_SiO2.agr 1139 33 33 text/plain other Figure 4 shows the neutron S(k) functions for the MgAS glasses with 50mol% silica measured using SLS/GEM (black curves) or D4c (red curves). en public cc_by

Fig4_Sofk_ND_50molpc_SiO2.agr

data 16060 2 53373 document 16060 Fig5_Sofk_XRD_50molpc_SiO2_v2.agr text/plain 184e0fd199ea4c0a6986a7392be2dcbc MD5 224745 2022-05-30 16:27:52 https://researchdata.bath.ac.uk/1139/34/Fig5_Sofk_XRD_50molpc_SiO2_v2.agr 1139 34 34 text/plain other Figure 5 shows the x-ray S(k) functions for the MgAS glasses with 50 mol% silica. en public cc_by

Fig5_Sofk_XRD_50molpc_SiO2_v2.agr

data 16061 2 53375 document 16061 Fig6_Sofk_ND_tecto.agr text/plain 579feab9bcc913e25e3959a5ac02f26c MD5 242548 2022-05-30 16:28:24 https://researchdata.bath.ac.uk/1139/35/Fig6_Sofk_ND_tecto.agr 1139 35 35 text/plain other Figure 6 shows the neutron S(k) functions for the MgAS glasses along the tectosilicate tie-line measured using SLS (black curves) or D4c (red curves). en public cc_by

Fig6_Sofk_ND_tecto.agr

data 16062 2 53377 document 16062 Fig7_Dofr_ND_50molpc_SiO2_part1.agr text/plain 7a705d4c4c9c3cda557ccf55f8d8b593 MD5 734461 2022-05-30 16:29:01 https://researchdata.bath.ac.uk/1139/36/Fig7_Dofr_ND_50molpc_SiO2_part1.agr 1139 36 36 text/plain other Figure 7 shows the fitted neutron D'(r) functions for several of the MgAS glasses with 50 mol% silica. en public cc_by

Fig7_Dofr_ND_50molpc_SiO2_part1.agr

data 16063 2 53379 document 16063 Fig8_Dofr_XRD_50molpc_SiO2_v2.agr text/plain b4a688dc922104af4ae343814cfd5156 MD5 425034 2022-05-30 16:29:28 https://researchdata.bath.ac.uk/1139/37/Fig8_Dofr_XRD_50molpc_SiO2_v2.agr 1139 37 37 text/plain other Figure 8 shows the fitted x-ray D'(r) functions for several of the MgAS glasses with 50 mol% silica. en public cc_by

Fig8_Dofr_XRD_50molpc_SiO2_v2.agr

data 16064 2 53381 document 16064 Fig9_Dofr_ND_tecto_main_text.agr text/plain b35d5583cc3b711305a9e990230f8729 MD5 754821 2022-05-30 16:29:59 https://researchdata.bath.ac.uk/1139/38/Fig9_Dofr_ND_tecto_main_text.agr 1139 38 38 text/plain other Figure 9 shows the fitted neutron D'(r) functions for several of the MgAS glasses along the tectosilicate tie-line. en public cc_by

Fig9_Dofr_ND_tecto_main_text.agr

data 16065 2 53389 document 16065 Fig10a_Model_50molpercent_SiO2_gamma_0p77_v2.agr text/plain fa0bd7500d13f8c2c3d7615b018bdfab MD5 54726 2022-05-30 16:31:00 https://researchdata.bath.ac.uk/1139/39/Fig10a_Model_50molpercent_SiO2_gamma_0p77_v2.agr 1139 39 39 text/plain other Figure 10a shows the predictions of the GYZAS structural model for glassy MgAS along the 50 mol% silica tie-line for p = 0.77. en public cc_by

Fig10a_Model_50molpercent_SiO2_gamma_0p77_v2.agr

data 16066 2 53391 document 16066 Fig10b_Model_60molpercent_SiO2_gamma_0p77.agr text/plain b328f9d2df91e5d342c67753dc50e8f8 MD5 50121 2022-05-30 16:31:24 https://researchdata.bath.ac.uk/1139/40/Fig10b_Model_60molpercent_SiO2_gamma_0p77.agr 1139 40 40 text/plain other Figure 10b shows the predictions of the GYZAS structural model for glassy MgAS along the 60 mol% silica tie-line for p = 0.77. en public cc_by

Fig10b_Model_60molpercent_SiO2_gamma_0p77.agr

data 16076 2 53420 document 16076 Fig19_NBO_vs_R.agr text/plain ace66c6decadf1d2a74c35da689a5e07 MD5 40135 2022-05-30 16:38:17 https://researchdata.bath.ac.uk/1139/49/Fig19_NBO_vs_R.agr 1139 49 49 text/plain other Figure 19 shows the R dependence of (a) f_{NBO} along the 50 mol% silica tie line, (b) f_{NBO} along the 60 mol% silica tie line, and (c) the ratio N_{NBO}/[N_{Mg} + N_{Al_mcc}]. en public cc_by

Fig19_NBO_vs_R.agr

data 16077 2 53422 document 16077 Fig20_log_viscosity_vs_R.agr text/plain d815e7631a7c892af650f50f5460be64 MD5 16007 2022-05-30 16:38:52 https://researchdata.bath.ac.uk/1139/50/Fig20_log_viscosity_vs_R.agr 1139 50 50 text/plain other Figure 20 shows the dependence of log_{10}(eta) versus the ratio R for the tie lines with approximately 52, 67 and 75 mol% silica at a temperature of 1600 degC. en public cc_by

Fig20_log_viscosity_vs_R.agr

data 16081 2 53438 document 16081 FigS1_Sofk_ND_60molpc_SiO2.agr text/plain a13cc222b9911776f154d631867e5014 MD5 192347 2022-05-30 16:49:54 https://researchdata.bath.ac.uk/1139/54/FigS1_Sofk_ND_60molpc_SiO2.agr 1139 54 54 text/plain other Figure S1 shows the neutron S(k) functions for the MgAS glasses with 60 mol% silica measured using SLS (black curves) or D4c (red curves). en public cc_by

FigS1_Sofk_ND_60molpc_SiO2.agr

data 16082 2 53440 document 16082 FigS2_Sofk_ND_70molpc_SiO2.agr text/plain 84a5703edb68521843500b89502f569b MD5 69679 2022-05-30 16:50:15 https://researchdata.bath.ac.uk/1139/55/FigS2_Sofk_ND_70molpc_SiO2.agr 1139 55 55 text/plain other Figure S2 shows the neutron S(k) functions for the MgAS_7_76 glass and the MgAS glasses with 70 mol% silica measured using SLS (black curves) or D4c (red curves). en public cc_by

FigS2_Sofk_ND_70molpc_SiO2.agr

data 16083 2 53442 document 16083 FigS3_Sofk_XRD_others_SiO2.agr text/plain b2439863c248f50975d4fa5d15583fab MD5 184806 2022-05-30 16:50:37 https://researchdata.bath.ac.uk/1139/56/FigS3_Sofk_XRD_others_SiO2.agr 1139 56 56 text/plain other Figure S3 shows the x-ray S(k) functions for the MgAS glasses with either 60 or 70 mol% silica (solid curves). en public cc_by

FigS3_Sofk_XRD_others_SiO2.agr

data 16084 2 53444 document 16084 FigS4_Dofr_ND_50molpc_SiO2_part2.agr text/plain f55259cdc7d9f8ecb57d7ab92087db91 MD5 669881 2022-05-30 16:50:59 https://researchdata.bath.ac.uk/1139/57/FigS4_Dofr_ND_50molpc_SiO2_part2.agr 1139 57 57 text/plain other Figure S4 shows the fitted neutron D'(r) functions for several of the MgAS glasses with 50 mol% silica. en public cc_by

FigS4_Dofr_ND_50molpc_SiO2_part2.agr

data 16085 2 53446 document 16085 FigS5_Dofr_ND_50molpc_SiO2_part3.agr text/plain 594c17fb4f1e0d31ed8d5a89855c70ef MD5 668230 2022-05-30 16:51:18 https://researchdata.bath.ac.uk/1139/58/FigS5_Dofr_ND_50molpc_SiO2_part3.agr 1139 58 58 text/plain other Figure S5 shows the fitted neutron D'(r) functions for several of the MgAS glasses with 50 mol% silica. en public cc_by

FigS5_Dofr_ND_50molpc_SiO2_part3.agr

data 16086 2 53448 document 16086 FigS6_Dofr_ND_50molpc_SiO2_part4.agr text/plain e0c06b1dfca3a351f25740b85b4ef709 MD5 649941 2022-05-30 16:51:40 https://researchdata.bath.ac.uk/1139/59/FigS6_Dofr_ND_50molpc_SiO2_part4.agr 1139 59 59 text/plain other Figure S6 shows the fitted neutron D'(r) functions for several of the MgAS glasses with 50 mol% silica. en public cc_by

FigS6_Dofr_ND_50molpc_SiO2_part4.agr

data 16088 2 53452 document 16088 FigS8_Dofr_ND_60molpc_SiO2_part2.agr text/plain 785dada5463a5d05a6d2a1a88cb1b47b MD5 792102 2022-05-30 16:52:22 https://researchdata.bath.ac.uk/1139/61/FigS8_Dofr_ND_60molpc_SiO2_part2.agr 1139 61 61 text/plain other Figure S8 shows the fitted neutron D'(r) functions for several of the MgAS glasses with 60 mol% silica. en public cc_by

FigS8_Dofr_ND_60molpc_SiO2_part2.agr

data 16089 2 53454 document 16089 FigS9_Dofr_ND_other.agr text/plain e8ecc8e625c4a1e1f19ae4a25961c692 MD5 848199 2022-05-30 16:52:44 https://researchdata.bath.ac.uk/1139/62/FigS9_Dofr_ND_other.agr 1139 62 62 text/plain other Figure S9 shows the fitted neutron D'(r) functions for the MgAS_7_76 glass and the MgAS glasses with 70 mol% silica. en public cc_by

FigS9_Dofr_ND_other.agr

data 16090 2 53456 document 16090 FigS10_Dofr_XRD_others.agr text/plain c9afc9bca875a6c9d6ff86c0e001ba78 MD5 436408 2022-05-30 16:53:05 https://researchdata.bath.ac.uk/1139/63/FigS10_Dofr_XRD_others.agr 1139 63 63 text/plain other Figure S10 shows the fitted x-ray D'(r) functions for the MgAS glasses with either 60 or 70 mol% silica. en public cc_by

FigS10_Dofr_XRD_others.agr

data 16091 2 53458 document 16091 FigS11_Dofr_ND_tecto.agr text/plain a785388f07ab3dce4881368e57fe23a2 MD5 604787 2022-05-30 16:53:28 https://researchdata.bath.ac.uk/1139/64/FigS11_Dofr_ND_tecto.agr 1139 64 64 text/plain other Figure S11 shows the fitted neutron D'(r) functions for several of the MgAS glasses along the tectosilicate tie-line. en public cc_by

FigS11_Dofr_ND_tecto.agr

data 16167 2 53882 document 16167 Fig21_hardness_vs_R_69p5pc_SiO2_v6.agr text/plain 7fbc4e6701d10c61133614c0d232dd62 MD5 64201 2022-06-27 18:36:43 https://researchdata.bath.ac.uk/1139/66/Fig21_hardness_vs_R_69p5pc_SiO2_v6.agr 1139 66 66 text/plain other Figure 21 shows the dependence of (a) the microhardness, (b) N_{NBO}/N_T, (c) N_{NBO}/[N_{Mg} + N_{Al_mcc}], and (d) the mean Al-O coordination number n_{Al}^{O} on the ratio R along the ~70 mol% silica tie-line. en public cc_by

Fig21_hardness_vs_R_69p5pc_SiO2_v6.agr

data 16168 2 53884 document 16168 Fig22_hardness_vs_SiO2_tecto_v4.agr text/plain be42a65119cef900c141a479fd004b87 MD5 48394 2022-06-27 18:38:16 https://researchdata.bath.ac.uk/1139/67/Fig22_hardness_vs_SiO2_tecto_v4.agr 1139 67 67 text/plain other Figure 22 shows the dependence of (a) the hardness measured in nanoindentation experiments using a Berkovich diamond tip, (b) N_{NBO}/N_T, (c) N_{NBO}/[N_{Mg} + N_{Al_mcc}], and (d) the mean Al-O coordination number n_{Al}^{O} on the mol% of silica for glasses on or near to the tectosilicate tie-line. en public cc_by

Fig22_hardness_vs_SiO2_tecto_v4.agr

data 16328 2 54809 document 16328 Fig12_CN_vs_R_v4.agr text/plain 4e369dc9afab870ad0f4dbe5de450680 MD5 40089 2022-08-31 11:36:18 https://researchdata.bath.ac.uk/1139/70/Fig12_CN_vs_R_v4.agr 1139 70 70 text/plain other Figure 12 shows the dependence of the (a) Al-O and (b) Mg-O coordination numbers on the ratio R. en public cc_by

Fig12_CN_vs_R_v4.agr

data 16332 2 54818 document 16332 Fig14_CN_vs_Al2O3_50molpc_v2.agr text/plain 491e0f8c448109d86d411d4c6d34bb1f MD5 46827 2022-08-31 11:38:05 https://researchdata.bath.ac.uk/1139/73/Fig14_CN_vs_Al2O3_50molpc_v2.agr 1139 73 73 text/plain other Figure 14 shows the dependence of the (a) Al-O and (b) Mg-O coordination numbers on the mol% of alumina along the tie-line with 50 mol% silica. en public cc_by

Fig14_CN_vs_Al2O3_50molpc_v2.agr

data 16334 2 54822 document 16334 Fig16_CN_vs_Al2O3_60molpc_v4.agr text/plain c8106b98676bf48a733d479806cab1cd MD5 46957 2022-08-31 11:39:06 https://researchdata.bath.ac.uk/1139/75/Fig16_CN_vs_Al2O3_60molpc_v4.agr 1139 75 75 text/plain other Figure 16 shows the dependence of the (a) Al-O and (b) Mg-O coordination numbers on the mol% of alumina along the tie-line with 60 mol% silica. en public cc_by

Fig16_CN_vs_Al2O3_60molpc_v4.agr

data 16336 2 54826 document 16336 Fig18_CN_vs_SiO2_tecto_v5.agr text/plain 674bd536364ef4bec2b14480e362c232 MD5 32423 2022-08-31 11:41:47 https://researchdata.bath.ac.uk/1139/77/Fig18_CN_vs_SiO2_tecto_v5.agr 1139 77 77 text/plain other Figure 18 shows the dependence of the (a) Al-O and (b) Mg-O coordination numbers on the mol% of silica along the tectosilicate tie-line where R = 1. en public cc_by

Fig18_CN_vs_SiO2_tecto_v5.agr

data 16337 2 54828 document 16337 FigS7_Dofr_ND_60molpc_SiO2_part1.agr text/plain 4096c21153a8e0e05f0096eb1c0cd785 MD5 831578 2022-08-31 11:42:24 https://researchdata.bath.ac.uk/1139/78/FigS7_Dofr_ND_60molpc_SiO2_part1.agr 1139 78 78 text/plain other Figure S7 shows the fitted neutron D'(r) functions for several of the MgAS glasses with 60 mol% silica. en public cc_by

FigS7_Dofr_ND_60molpc_SiO2_part1.agr

data 16393 2 55479 document 16393 Fig11_bond_distance_vs_R_v3.agr text/plain fa518f7ecbcdaee12b622c973b59f2bc MD5 62956 2022-09-21 13:35:58 https://researchdata.bath.ac.uk/1139/79/Fig11_bond_distance_vs_R_v3.agr 1139 79 79 text/plain other Figure 11 shows the dependence of the (a) Si-O, (b) Al-O and (c) Mg-O bond distances on the ratio R. en public cc_by

Fig11_bond_distance_vs_R_v3.agr

data 16394 2 55481 document 16394 Fig13_bond_distance_vs_Al2O3_50molpc_v3.agr text/plain 5feff911fe6b572dba9153eac7b9b454 MD5 73768 2022-09-21 13:36:41 https://researchdata.bath.ac.uk/1139/80/Fig13_bond_distance_vs_Al2O3_50molpc_v3.agr 1139 80 80 text/plain other Figure 13 shows the dependence of the (a) Si-O, (b) Al-O and (c) Mg-O bond distances on the mol% of alumina along the tie-line with 50 mol% silica. en public cc_by

Fig13_bond_distance_vs_Al2O3_50molpc_v3.agr

data 16395 2 55483 document 16395 Fig15_bond_distance_vs_Al2O3_60molpc_v3.agr text/plain f89ef748729fb8a869c19f2827c375e4 MD5 73897 2022-09-21 13:37:12 https://researchdata.bath.ac.uk/1139/81/Fig15_bond_distance_vs_Al2O3_60molpc_v3.agr 1139 81 81 text/plain other Figure 15 shows the dependence of the (a) Si-O, (b) Al-O and (c) Mg-O bond distances on the mol% of alumina along the tie-line with 60 mol% silica. en public cc_by

Fig15_bond_distance_vs_Al2O3_60molpc_v3.agr

data 16396 2 55485 document 16396 Fig17_bond_distance_vs_SiO2_tecto_v4.agr text/plain cffb002701d76b56a6163e60f6b5e881 MD5 50791 2022-09-21 13:37:43 https://researchdata.bath.ac.uk/1139/82/Fig17_bond_distance_vs_SiO2_tecto_v4.agr 1139 82 82 text/plain other Figure 17 shows the dependence of the (a) Si-O, (b) Al-O and (c) Mg-O bond distances on the mol% of silica along the tectosilicate tie-line where R = 1. en public cc_by

Fig17_bond_distance_vs_SiO2_tecto_v4.agr

data archive 479 disk0/00/00/11/39 2022-12-09 16:53:22 2025-12-27 05:53:29 2022-12-09 16:53:22 data_collection show Salmon Philip P.S.Salmon@bath.ac.uk 0000-0001-8671-1011 University of Bath TRUE Zeidler Anita A.Zeidler@bath.ac.uk 0000-0001-6501-8525 University of Bath FALSE Data sets for "Structure and related properties of amorphous magnesium aluminosilicates" BS0050 CG0020 CM0040 EM0050 EM0060 GE0030 dept_physics The files are labelled according to the corresponding figure numbers. The units for each axis are identified on the plots. Data sets used to prepare Figures 4-22 and S1-S11 in the Physical Review Materials article entitled "Structure and related properties of amorphous magnesium aluminosilicates." The data sets describe the structure across a wide composition range. 2022-12-09 University of Bath public RightsHolder University of Bath Engineering and Physical Sciences Research Council https://doi.org/10.13039/501100000266 EP/L015544/1 EPSRC Centre for Doctoral Training in Condensed Matter Physics ISIS Neutron and Muon Source https://doi.org/10.13039/501100021200 STU0173 ISIS/Diamond Facility Development Studentship Diamond Light Source https://doi.org/10.13039/100011889 STU0173 ISIS/Diamond Facility Development Studentship Royal Society https://doi.org/10.13039/501100000288 DH140152 Dorothy Hodgkin Research Fellowship - Rational Design of Glassy Materials with Technological Applications Corning https://doi.org/10.13039/100008280 CM00002159/SA/01 Structural role of magnesium in glass and glass-ceramics Royal Society https://doi.org/10.13039/501100000288 RGF\EA\180060 The chameleon-like properties of magnesium in commercial glass United States Department of Energy https://doi.org/10.13039/100000015 DE-AC02-06CH11357 Advanced Photon Source cent_nan The data sets were collected using the methods described in the published paper. The figures were prepared using QtGrace (https://sourceforge.net/projects/qtgrace/). The data set corresponding to a plotted curve within an QtGrace file can be identified by clicking on that curve. 2017-01-12 2022-04-20 en 1 10.15125/BATH-01139 https://doi.org/10.1103/PhysRevMaterials.6.125603 pub https://doi.org/10.5291/ILL-DATA.6-05-988 data https://doi.org/10.5291/ILL-DATA.6-05-976 data https://doi.org/10.5291/ILL-DATA.6-05-1009 data https://doi.org/10.5291/ILL-DATA.6-05-1002 data https://doi.org/10.5291/ILL-DATA.INTER-562 data https://doi.org/10.5286/ISIS.E.RB1720342 data https://doi.org/10.5286/ISIS.E.RB1820424 data open Dataset