HTTP 200 OK
Allow: GET, POST, HEAD, OPTIONS
Content-Type: application/json
Vary: Accept
{
"links": {
"next": "https://microlib.io/api/microstructure/?format=api&page=5",
"previous": "https://microlib.io/api/microstructure/?format=api&page=3",
"first": "https://microlib.io/api/microstructure/?page=1",
"last": "https://microlib.io/api/microstructure/?page=7"
},
"total": 79,
"page": 4,
"page_size": 12,
"number_pages": 7,
"results": [
{
"id": 54,
"name": "Microstructure 376",
"short_name": "microstructure376",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
70
],
"category": [
1
],
"element": [
6,
7,
12,
15,
18
],
"brief_description": "As cast white cast iron",
"long_description": "An example of a white cast iron, so named due to its relatively low carbon content, which means that the carbon present is in the form of cementite. Upon cooling the melt initially forms austenite dendrites and ledeburite. The dendrites then transform to pearlite, and the ledeburite to ferrite and cementite.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-11-15T16:56:19.388580Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=376",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure376/microstructure376_params.data",
"vox_size": 1.3745704467353952,
"rating": 2,
"barbox": [
[
242,
440
],
[
548,
517
]
],
"barcol": [
255,
19
],
"phases": [
199,
235
],
"downloads": 38
},
{
"id": 51,
"name": "Microstructure 368",
"short_name": "microstructure368",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
70
],
"category": [
1
],
"element": [
6,
7,
12,
15
],
"brief_description": "Blackheart cast iron",
"long_description": "Blackheart cast iron is produced by heating white cast iron at 900-950 ºC for many days before cooling slowly. This results in a microstructure containing irregular though equiaxed nodules of graphite in a ferritic matrix. The term \"blackheart\" comes from the fact that the fracture surface has a grey or black appearance due to the presence of graphite at the surface. The purpose of the heat treatment is to increase the ductility of the cast iron.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-11-23T18:24:36.255647Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=368",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure368/microstructure368_params.data",
"vox_size": 1.36986301369863,
"rating": 3,
"barbox": [
[
249,
453
],
[
546,
526
]
],
"barcol": [
255,
80
],
"phases": [
172,
215
],
"downloads": 40
},
{
"id": 53,
"name": "Microstructure 372",
"short_name": "microstructure372",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
70
],
"category": [
1
],
"element": [
6,
7,
12,
15,
18
],
"brief_description": "As cast white cast iron",
"long_description": "An example of a white cast iron, so named due to its relatively low carbon content, which means that the carbon present is in the form of cementite. Upon cooling the melt initially forms austenite dendrites and ledeburite. The dendrites then transform to pearlite, and the ledeburite to ferrite and cementite.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-24T11:03:53.614846Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=372",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure372/microstructure372_params.data",
"vox_size": 1.3745704467353952,
"rating": 9,
"barbox": [
[
246,
447
],
[
546,
521
]
],
"barcol": [
255,
80
],
"phases": [
219,
232
],
"downloads": 3
},
{
"id": 57,
"name": "Microstructure 387",
"short_name": "microstructure387",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
47,
71
],
"category": [
1
],
"element": [
6,
7,
12,
15
],
"brief_description": "Silal",
"long_description": "This sample shows the typical structure of silal, irons with high Si content (5.5-7.9 wt%). It is a grey cast iron alloyed with 4-6wt% Si to provide good oxidation resistance. The high Si content forms a dense, adherent iron silicate surface film, which is resistant to oxygen penetration. The flake graphite iron Silal was one of the first heat resisting cast irons developed. Spheroidal graphite Si irons have higher strength and improved ductility. The structure shows cored dendrites of ferrite with interdendritic flake graphite. A few white areas of Si carbide are also present.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-22T13:55:03.760401Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=387",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure387/microstructure387_params.data",
"vox_size": 1.3888888888888888,
"rating": 6,
"barbox": [
[
249,
453
],
[
546,
528
]
],
"barcol": [
255,
50
],
"phases": [
113,
223
],
"downloads": 3
},
{
"id": 56,
"name": "Microstructure 381",
"short_name": "microstructure381",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
71
],
"category": [
1
],
"element": [
14
],
"brief_description": "Grey cast iron",
"long_description": "Cast iron with a high carbon content is referred to as grey cast iron since the carbon is present in the form of graphite flakes giving rise to a grey colour when viewed. This form of cast iron has several technologically useful properties such as good machinability, low melting temperature, good wear resistance and good mould reproduction.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-22T13:26:23.413123Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=381",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure381/microstructure381_params.data",
"vox_size": 1.3651877133105803,
"rating": 5,
"barbox": [
[
245,
440
],
[
548,
524
]
],
"barcol": [
255,
30
],
"phases": [
46,
229
],
"downloads": 13
},
{
"id": 66,
"name": "Microstructure 477",
"short_name": "microstructure477",
"data_type": 1,
"technique": 1,
"keyword": [
1,
3,
4,
7,
29,
33
],
"category": [
1
],
"element": [
2,
8
],
"brief_description": "Cu 80, Zn 20 (wt%) brass, exhibiting dendritic solidification",
"long_description": "As cast copper rich brass showing copper dendrites in a matrix of a (copper) and b phases.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-24T11:03:02.329241Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=477",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure477/microstructure477_params.data",
"vox_size": 2.7491408934707904,
"rating": 8,
"barbox": [
[
247,
443
],
[
547,
522
]
],
"barcol": [
255,
50
],
"phases": [
117,
220
],
"downloads": 4
},
{
"id": 59,
"name": "Microstructure 396",
"short_name": "microstructure396",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
45,
72
],
"category": [
1
],
"element": [
6,
7,
14
],
"brief_description": "Cast iron with magnesium induced spheroidised graphite",
"long_description": "Cast iron is a brittle material and it is advantageous to process it in such a way to improve its ductility. The brittleness is partially due to the graphite flakes which act as nucleation sites for cracks. Therefore it is an advantage to have the graphite present as spheres. This can be achieved by a heat treatment regime or by the addition of a small amount of Mg which poisons the graphite growth directions. ",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-22T13:25:45.068532Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=396",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure396/microstructure396_params.data",
"vox_size": 1.36986301369863,
"rating": 5,
"barbox": [
[
242,
431
],
[
548,
515
]
],
"barcol": [
255,
50
],
"phases": [
48,
202
],
"downloads": 34
},
{
"id": 60,
"name": "Microstructure 406",
"short_name": "microstructure406",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
45,
73
],
"category": [
1
],
"element": [
6,
7,
12,
15,
16,
18
],
"brief_description": "Cast iron, containing phosphorus",
"long_description": "The presence of phosphorus in cast iron has no great effect on the graphite cementite ratio but serves to make the metal very fluid due to the creation of a low melting point phosphide eutectic. This may result in shrinkage porosity in large castings. Manganese serves to remove sulphur from the casting and since sulphur promotes cementite, the manganese will harden the iron.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-22T13:54:38.865758Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=406",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure406/microstructure406_params.data",
"vox_size": 2.7586206896551726,
"rating": 6,
"barbox": [
[
248,
425
],
[
547,
508
]
],
"barcol": [
255,
50
],
"phases": [
59,
234
],
"downloads": 3
},
{
"id": 65,
"name": "Microstructure 447",
"short_name": "microstructure447",
"data_type": 1,
"technique": 1,
"keyword": [
1,
3,
4,
7,
29,
33
],
"category": [
1
],
"element": [
2,
8
],
"brief_description": "Cu 65, Zn 35 (wt%) B4 brass, chill cast",
"long_description": "An good example of dendritic solidification, which occurs when the solidification front becomes unstable with respect to small perturbations. This results in the growth of the perturbations, producing dendrites (from the Greek for tree). Interdendritic b phase and purple-grey ZnO inclusions.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-24T09:12:51.342387Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=447",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure447/microstructure447_params.data",
"vox_size": 1.3745704467353952,
"rating": 7,
"barbox": [
[
247,
443
],
[
548,
514
]
],
"barcol": [
255,
50
],
"phases": [
152,
210
],
"downloads": 2
},
{
"id": 58,
"name": "Microstructure 393",
"short_name": "microstructure393",
"data_type": 1,
"technique": 1,
"keyword": [
1,
7,
15,
19,
45,
72
],
"category": [
1
],
"element": [
6,
7,
14
],
"brief_description": "Cast iron with magnesium induced spheroidised graphite",
"long_description": "Cast iron is a brittle material and it is advantageous to process it in such a way to improve its ductility. The brittleness is partially due to the graphite flakes which act as nucleation sites for cracks. Therefore it is an advantage to have the graphite present as spheres. This can be achieved by a heat treatment regime or by the addition of a small amount of Mg which poisons the graphite growth directions. ",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-11-28T01:20:26.203837Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=393",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure393/microstructure393_params.data",
"vox_size": 1.3651877133105803,
"rating": 1,
"barbox": [
[
240,
433
],
[
544,
513
]
],
"barcol": [
255,
70
],
"phases": [
110,
254
],
"downloads": 177
},
{
"id": 61,
"name": "Microstructure 420",
"short_name": "microstructure420",
"data_type": 1,
"technique": 1,
"keyword": [
1,
3,
4,
7,
29,
33
],
"category": [
1
],
"element": [
2,
8,
20,
21
],
"brief_description": "Commercial brass, ~30% Zn, displaying dendritic solidification",
"long_description": "An good example of dendritic solidification, which occurs when the solidification front becomes unstable with respect to small perturbations. This results in the growth of the perturbations, producing dendrites (from the Greek for tree). The variation in colour across the micrograph indicates that the cooling was sufficiently rapid to prevent solid state diffusion and hence a concentration variation. This phenomena is known as coring.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-24T09:12:12.266288Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=420",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure420/microstructure420_params.data",
"vox_size": 2.7303754266211606,
"rating": 7,
"barbox": [
[
246,
437
],
[
548,
520
]
],
"barcol": [
255,
50
],
"phases": [
74,
253
],
"downloads": 4
},
{
"id": 63,
"name": "Microstructure 441",
"short_name": "microstructure441",
"data_type": 1,
"technique": 1,
"keyword": [
1,
3,
7,
27,
29,
33
],
"category": [
1
],
"element": [
2,
8
],
"brief_description": "Cu 60, Zn 40 (wt%) brass, Widmanstätten microstructure",
"long_description": "This sample has been air cooled. The fast cooling rate changes the morphology to a 'basket weave' appearance known as a Widmanstätten microstructure. The a phase precipitates out of the single b phase during cooling to give a plates in a b matrix. The plates form in order to minimise strain energy.",
"contributor": "Dr R F Cochrane",
"organisation": "Department of Materials, University of Leeds",
"last_updated": "2025-09-22T09:01:05.978076Z",
"link_doitpoms": "https://www.doitpoms.ac.uk/miclib/full_record.php?id=441",
"data_3D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441.tif",
"data_2D": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441_inpainted.png",
"data_2D_original": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441_original.png",
"preview": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441.mp4",
"inpaint_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441_inpaint.mp4",
"long_movie": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441_long.mp4",
"generator": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441_Gen.pt",
"params": "https://microstructure-library.s3.eu-west-2.amazonaws.com/microstructure441/microstructure441_params.data",
"vox_size": 1.3793103448275863,
"rating": 3,
"barbox": [
[
245,
429
],
[
547,
512
]
],
"barcol": [
255,
150
],
"phases": [
122,
185
],
"downloads": 16
}
]
}
