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Matbench

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Files changed (4) hide show
  1. matbench_expt_gap.json +0 -0
  2. matbench_expt_is_metal.json +0 -0
  3. matbench_glass.json +0 -0
  4. matbench_steels.json +254 -0
matbench_expt_gap.json ADDED
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matbench_expt_is_metal.json ADDED
The diff for this file is too large to render. See raw diff
 
matbench_glass.json ADDED
The diff for this file is too large to render. See raw diff
 
matbench_steels.json ADDED
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1
+ [
2
+ {
3
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.625Mn0.000102Si0.000200Cr0.0936Ni0.129Mo0.00480V0.000110Nb0.0000604Co0.132Al0.00812Ti0.00669",
4
+ "answer": 1736.3
5
+ },
6
+ {
7
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.636C0.000474Mn0.000518Si0.00101Cr0.000109Ni0.188Mo0.00860V0.000112Nb0.0000612Co0.144Al0.00274Ti0.0184",
8
+ "answer": 2249.6
9
+ },
10
+ {
11
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.661C0.000454Mn0.0000993Si0.0375Cr0.164Ni0.0381Mo0.000114V0.000107Nb0.0000587Co0.0972Al0.000606Ti0.000684",
12
+ "answer": 1185.1
13
+ },
14
+ {
15
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.664C0.00926Mn0.000101Si0.0101Cr0.134Ni0.00900Mo0.0114V0.000109Nb0.000479Co0.161Al0.000618",
16
+ "answer": 1322.1
17
+ },
18
+ {
19
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.665C0.000468Mn0.000102Si0.000200Cr0.121Ni0.0768Mo0.0293V0.000110Nb0.0000606Co0.0823Al0.0254Ti0.000118",
20
+ "answer": 1870.6
21
+ },
22
+ {
23
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.667C0.00984Mn0.000102Si0.000200Cr0.158Ni0.0000959Mo0.0295V0.00453N0.000804Nb0.0000606Co0.129Al0.00104",
24
+ "answer": 1405.6
25
+ },
26
+ {
27
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.668C0.00972Mn0.00435Si0.00990Cr0.134Ni0.0112Mo0.0119V0.000109Nb0.0000598Co0.150Al0.000618",
28
+ "answer": 1352.2
29
+ },
30
+ {
31
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.670C0.00564Mn0.000103Si0.000201Cr0.158Ni0.0000963Mo0.0300V0.00477N0.00121Nb0.0000608Co0.129Al0.000628",
32
+ "answer": 1515.8
33
+ },
34
+ {
35
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.671C0.00376Mn0.000103Si0.000201Cr0.157Ni0.0000962Mo0.0294V0.00510N0.00282Nb0.0000608Co0.130Al0.000628",
36
+ "answer": 1311.4
37
+ },
38
+ {
39
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.671C0.00925Mn0.00516Si0.0103Cr0.135Ni0.00965Mo0.0115V0.000109Nb0.0000598Co0.147Al0.000618",
40
+ "answer": 1245.4
41
+ },
42
+ {
43
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.681C0.000478Mn0.000104Si0.000204Cr0.000110Ni0.181Mo0.0293V0.00439Nb0.0000618Co0.0847Al0.0108Ti0.00779",
44
+ "answer": 1164.4
45
+ },
46
+ {
47
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.681C0.00877Mn0.00464Si0.00968Cr0.135Ni0.00898Mo0.00861V0.000109Nb0.0000597Co0.142Al0.000617",
48
+ "answer": 1250.8
49
+ },
50
+ {
51
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.682C0.00877Mn0.000202Si0.00967Cr0.134Ni0.00907Mo0.00861V0.00501Nb0.0000597Co0.142Al0.000616",
52
+ "answer": 1241.0
53
+ },
54
+ {
55
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.683C0.00749Mn0.000102Si0.000200Cr0.156Ni0.0000958Mo0.0309V0.00453N0.00522Nb0.0000605Co0.112Al0.000834",
56
+ "answer": 1646.7
57
+ },
58
+ {
59
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.683C0.00925Mn0.000202Si0.00969Cr0.134Ni0.00890Mo0.0114V0.000109Nb0.000120Co0.142Al0.000618",
60
+ "answer": 1258.6
61
+ },
62
+ {
63
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.685C0.00877Mn0.000101Si0.00967Cr0.134Ni0.00907Mo0.00855V0.00359Nb0.0000597Co0.141Al0.000617",
64
+ "answer": 1218.4
65
+ },
66
+ {
67
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.685C0.0101Mn0.000101Si0.0199Cr0.134Ni0.00884Mo0.0114V0.000108Nb0.000475Co0.129Al0.000614",
68
+ "answer": 1383.7
69
+ },
70
+ {
71
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.689C0.000476Mn0.000104Si0.000204Cr0.111Ni0.0683Mo0.0327V0.000112Nb0.0000615Co0.0975Al0.000636",
72
+ "answer": 1486.2
73
+ },
74
+ {
75
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.690C0.00970Mn0.000101Si0.0111Cr0.134Ni0.00936Mo0.0114V0.00370Nb0.000478Co0.129Al0.000617",
76
+ "answer": 1280.7
77
+ },
78
+ {
79
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.693C0.000454Mn0.0000993Si0.0334Cr0.165Ni0.0381Mo0.000114V0.000107Nb0.0000587Co0.0685Al0.000405Ti0.000456",
80
+ "answer": 1205.8
81
+ },
82
+ {
83
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.696C0.00974Mn0.000101Si0.000198Cr0.150Ni0.0000949Mo0.0116V0.000109Nb0.000480Co0.130Al0.000619",
84
+ "answer": 1348.9
85
+ },
86
+ {
87
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.699C0.000478Mn0.000104Si0.000204Cr0.000110Ni0.166Mo0.0287V0.00383Nb0.0000618Co0.0847Al0.00829Ti0.00803",
88
+ "answer": 1287.3
89
+ },
90
+ {
91
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.700C0.000479Mn0.000523Si0.00102Cr0.000111Ni0.170Mo0.0298V0.000113Nb0.0000619Co0.0771Al0.00277Ti0.0180",
92
+ "answer": 2356.4
93
+ },
94
+ {
95
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.702C0.000943Mn0.000103Si0.000202Cr0.000109Ni0.142Mo0.000118V0.000111Nb0.0000609Co0.149Al0.000629Ti0.00509",
96
+ "answer": 1144.8
97
+ },
98
+ {
99
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.705C0.000475Mn0.000104Si0.000203Cr0.000110Ni0.147Mo0.0304V0.000112Nb0.0000615Co0.0891Al0.0195Ti0.00835",
100
+ "answer": 1580.1
101
+ },
102
+ {
103
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.706C0.0106Mn0.000101Si0.00712Cr0.135Ni0.00899Mo0.0114V0.000109Nb0.000478Co0.120Al0.000617",
104
+ "answer": 1302.8
105
+ },
106
+ {
107
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.710C0.000477Mn0.000104Si0.000204Cr0.000110Ni0.149Mo0.0305V0.000112Nb0.0000617Co0.0885Al0.0127Ti0.00814",
108
+ "answer": 1123.1
109
+ },
110
+ {
111
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.712C0.00144Mn0.000105Si0.000205Cr0.000111Ni0.180Mo0.0306V0.000113Nb0.0000620Co0.0655Al0.00235Ti0.00842",
112
+ "answer": 1109.3
113
+ },
114
+ {
115
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.713C0.0108Mn0.000102Si0.000200Cr0.0336Ni0.107Mo0.00691V0.000110Nb0.0000605Co0.128Al0.000208Ti0.000117",
116
+ "answer": 1746.6
117
+ },
118
+ {
119
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.714C0.00984Mn0.000102Si0.000200Cr0.0336Ni0.106Mo0.00698V0.000110Nb0.0000605Co0.129Al0.000208Ti0.000118",
120
+ "answer": 1795.5
121
+ },
122
+ {
123
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.718C0.00317Mn0.00594Si0.00581Cr0.178Ni0.0648Mo0.000113V0.000107Nb0.0000585Co0.0000922Al0.0242",
124
+ "answer": 1362.9
125
+ },
126
+ {
127
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.727C0.000476Mn0.000104Si0.000203Cr0.0549Ni0.108Mo0.0304V0.000112Nb0.0000615Co0.0611Al0.00212Ti0.0154",
128
+ "answer": 1123.1
129
+ },
130
+ {
131
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.737C0.0111Mn0.000101Si0.000198Cr0.0964Ni0.0266Mo0.00755V0.00317Nb0.0000599Co0.117Al0.000619Ti0.000233",
132
+ "answer": 1564.0
133
+ },
134
+ {
135
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.740C0.00457Mn0.0300Si0.00586Cr0.179Ni0.0393Mo0.000114V0.000108Nb0.0000591Co0.0000931Al0.000610",
136
+ "answer": 1130.4
137
+ },
138
+ {
139
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.744C0.00414Mn0.0217Si0.00354Cr0.180Ni0.0401Mo0.00598V0.000108Nb0.0000594Co0.0000937Al0.000614",
140
+ "answer": 1028.7
141
+ },
142
+ {
143
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.747C0.000899Mn0.000982Si0.0820Cr0.000104Ni0.166Mo0.000112V0.000106Nb0.0000581Co0.0000916Al0.00140Ti0.00101",
144
+ "answer": 1801.8
145
+ },
146
+ {
147
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.750C0.00138Mn0.000101Si0.000197Cr0.133Ni0.0789Mo0.0128V0.000109Nb0.0000596Co0.0000940Al0.0218Ti0.00104",
148
+ "answer": 1350.3
149
+ },
150
+ {
151
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.750C0.00184Mn0.000101Si0.000394Cr0.133Ni0.0814Mo0.0121V0.000109Nb0.0000596Co0.0000939Al0.0205",
152
+ "answer": 1308.0
153
+ },
154
+ {
155
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.752C0.00184Mn0.000101Si0.000197Cr0.133Ni0.0787Mo0.0129V0.000109Nb0.0000596Co0.0000940Al0.0213Ti0.000116",
156
+ "answer": 1312.0
157
+ },
158
+ {
159
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.759C0.000472Mn0.000103Si0.000202Cr0.000109Ni0.203Mo0.0124V0.000111Nb0.0000610Co0.0000961Al0.00273Ti0.0225",
160
+ "answer": 1661.2
161
+ },
162
+ {
163
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.760C0.000454Mn0.000992Si0.0640Cr0.000105Ni0.172Mo0.000114V0.000107Nb0.0000587Co0.0000925Al0.00101Ti0.00125",
164
+ "answer": 1474.4
165
+ },
166
+ {
167
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.767C0.000465Mn0.00112Si0.00358Cr0.110Ni0.0981Mo0.0119V0.000110Nb0.0000601Co0.0000948Al0.00559Ti0.00257",
168
+ "answer": 1175.4
169
+ },
170
+ {
171
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.770C0.000930Mn0.00488Si0.00199Cr0.107Ni0.0952Mo0.0112V0.000110Nb0.0000601Co0.0000948Al0.00600Ti0.00245",
172
+ "answer": 1188.6
173
+ },
174
+ {
175
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.771Mn0.00122Si0.00140Cr0.107Ni0.100Mo0.0123V0.000110Nb0.0000603Co0.0000950Al0.00477Ti0.00257",
176
+ "answer": 1150.6
177
+ },
178
+ {
179
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.778C0.000931Mn0.000611Si0.00159Cr0.0796Ni0.0981Mo0.0189V0.000110Nb0.0000602Co0.0000949Al0.0189Ti0.00269",
180
+ "answer": 1555.8
181
+ },
182
+ {
183
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.779C0.000946Mn0.000103Si0.000202Cr0.000109Ni0.173Mo0.0184V0.0100Nb0.0000611Co0.0000964Al0.00147Ti0.0166",
184
+ "answer": 1730.2
185
+ },
186
+ {
187
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.781C0.00141Mn0.000103Si0.000201Cr0.000109Ni0.167Mo0.000118V0.0200Nb0.0152Co0.0000960Al0.00210Ti0.0126",
188
+ "answer": 1730.2
189
+ },
190
+ {
191
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.783C0.0187Mn0.00184Si0.000200Cr0.104Ni0.0000955Mo0.0341V0.0106Nb0.0000603Co0.0463Al0.000623",
192
+ "answer": 1798.3
193
+ },
194
+ {
195
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.785C0.000931Mn0.000102Si0.000199Cr0.000108Ni0.167Mo0.000117V0.0209Nb0.0000602Co0.0000949Al0.00187Ti0.0241",
196
+ "answer": 1730.2
197
+ },
198
+ {
199
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.793C0.000468Mn0.000819Si0.00240Cr0.0962Ni0.0800Mo0.0190V0.000110Nb0.0000605Co0.0000954Al0.00521Ti0.00235",
200
+ "answer": 1169.2
201
+ },
202
+ {
203
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.794C0.000470Mn0.000617Si0.00101Cr0.0847Ni0.0981Mo0.0188V0.000111Nb0.0000608Co0.0000958Al0.00126Ti0.00118",
204
+ "answer": 1036.9
205
+ },
206
+ {
207
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.796C0.000469Mn0.000103Si0.000201Cr0.000108Ni0.174Mo0.00587V0.000111Nb0.0000606Co0.0000956Al0.00167Ti0.0212",
208
+ "answer": 1737.2
209
+ },
210
+ {
211
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.799C0.000468Mn0.0256Si0.000401Cr0.000108Ni0.173Mo0.000117V0.000110Nb0.0000605Co0.0000955Al0.00104Ti0.000470",
212
+ "answer": 1471.1
213
+ },
214
+ {
215
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.799C0.000469Mn0.000513Si0.00241Cr0.0520Ni0.117Mo0.0176V0.000111Nb0.0000606Co0.0000956Al0.00835Ti0.00224",
216
+ "answer": 1272.6
217
+ },
218
+ {
219
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.799C0.000471Mn0.000103Si0.000201Cr0.000109Ni0.165Mo0.0118V0.000111Nb0.0000609Co0.0000960Al0.00147Ti0.0215",
220
+ "answer": 1874.6
221
+ },
222
+ {
223
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.801C0.000939Mn0.000821Si0.000803Cr0.0513Ni0.116Mo0.0185V0.000111Nb0.0000607Co0.0000957Al0.00794Ti0.00271",
224
+ "answer": 1243.6
225
+ },
226
+ {
227
+ "problem": "Write a possible yield strength of given composition at 800-1200 °C. -> Fe0.802C0.000470Mn0.000308Si0.00221Cr0.0518Ni0.117Mo0.0178V0.000111Nb0.0000607Co0.0000958Al0.00544Ti0.00236",
228
+ "answer": 1216.8
229
+ },
230
+ {
231
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.803Mn0.000512Si0.00120Cr0.0520Ni0.110Mo0.0173V0.000110Nb0.0000605Co0.0000954Al0.0137Ti0.00235",
232
+ "answer": 1451.7
233
+ },
234
+ {
235
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.806C0.0176Mn0.00181Si0.000209Cr0.0802Ni0.0000999Mo0.00153V0.0124Nb0.0000631Co0.0501W0.0293Al0.000652",
236
+ "answer": 1681.2
237
+ },
238
+ {
239
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.813C0.0187Mn0.00143Si0.000200Cr0.0800Ni0.0000957Mo0.0337V0.00617Nb0.0000604Co0.0460Al0.000624",
240
+ "answer": 1805.2
241
+ },
242
+ {
243
+ "problem": "What will be the yield strength of given composition at 800-1200 °C? -> Fe0.816C0.000937Mn0.000102Si0.000200Cr0.000108Ni0.147Mo0.00821V0.000110Nb0.0000606Co0.0000955Al0.00250Ti0.0247",
244
+ "answer": 1792.2
245
+ },
246
+ {
247
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.823Mn0.000618Si0.00101Cr0.0561Ni0.0984Mo0.0189V0.000111Nb0.0000609Co0.0000961Al0.000629Ti0.00106",
248
+ "answer": 1019.0
249
+ },
250
+ {
251
+ "problem": "Given composition, write its potential yield strength at 800-1200 °C. -> Fe0.825C0.0174Mn0.00175Si0.000201Cr0.0565Ni0.0000963Mo0.0344V0.0116Nb0.00554Co0.0468Al0.000628",
252
+ "answer": 1860.3
253
+ }
254
+ ]