id stringlengths 8 8 | image imagewidth (px) 1.58k 1.58k | prompt stringclasses 10
values | target stringlengths 64 362 |
|---|---|---|---|
04c76e47 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 3200.0, "label": "aEe", "tau_f_Pa": 190.0, "tau_y_Pa": 140.0}, {"Gp_plateau_Pa": 8400.0, "label": "hxv", "tau_f_Pa": 960.0, "tau_y_Pa": 350.0}, {"Gp_plateau_Pa": 780.0, "label": "VXdqZ", "tau_f_Pa": 32.0, "tau_y_Pa": 19.0}, {"Gp_plateau_Pa": 280000.0, "label": "NBW", "tau_f_Pa": 22000.0, "tau_y_Pa": ... | |
057a85ef | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 6800000.0, "label": "Mvdzgn", "tau_f_Pa": 640000.0, "tau_y_Pa": 320000.0}, {"Gp_plateau_Pa": 450000.0, "label": "Sbzjc", "tau_f_Pa": 17000.0, "tau_y_Pa": 12000.0}] | |
05a32d98 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 50000.0, "label": "TbE", "tau_f_Pa": 8800.0, "tau_y_Pa": 3100.0}, {"Gp_plateau_Pa": 9500000.0, "label": "ywbSdi", "tau_f_Pa": 880000.0, "tau_y_Pa": 370000.0}, {"Gp_plateau_Pa": 120000.0, "label": "sxHDWWnNJ", "tau_f_Pa": 7200.0, "tau_y_Pa": 3900.0}] | |
06f2c7d9 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 2100000.0, "label": "LiRrCca", "tau_f_Pa": 140000.0, "tau_y_Pa": 71000.0}, {"Gp_plateau_Pa": 2600000.0, "label": "xtpnDZDS", "tau_f_Pa": 180000.0, "tau_y_Pa": 110000.0}] | |
0762aac8 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 13000000.0, "label": "STkPv", "tau_f_Pa": 560000.0, "tau_y_Pa": 380000.0}, {"Gp_plateau_Pa": 120000000.0, "label": "PdV", "tau_f_Pa": 9300000.0, "tau_y_Pa": 4400000.0}] | |
08c01fc3 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 3000000.0, "label": "gDjwTgTgF", "tau_f_Pa": 220000.0, "tau_y_Pa": 97000.0}, {"Gp_plateau_Pa": 570000.0, "label": "jjcrdE", "tau_f_Pa": 16000.0, "tau_y_Pa": 9900.0}, {"Gp_plateau_Pa": 19000.0, "label": "OnxCD", "tau_f_Pa": 1900.0, "tau_y_Pa": 690.0}] | |
0e33a916 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 5400.0, "label": "iCLWwdBan", "tau_f_Pa": 190.0, "tau_y_Pa": 120.0}] | |
0f213157 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 31000.0, "label": "Yiajqpu", "tau_f_Pa": 2700.0, "tau_y_Pa": 1300.0}, {"Gp_plateau_Pa": 8100.0, "label": "LJMBMTD", "tau_f_Pa": 530.0, "tau_y_Pa": 230.0}, {"Gp_plateau_Pa": 56000.0, "label": "CspSTkwG", "tau_f_Pa": 8300.0, "tau_y_Pa": 2500.0}, {"Gp_plateau_Pa": 250000.0, "label": "APmLv", "tau_f_Pa":... | |
0f70f024 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 2000.0, "label": "MdWcV", "tau_f_Pa": 110.0, "tau_y_Pa": 78.0}] | |
0fdc7db3 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 91000.0, "label": "MalUjNO", "tau_f_Pa": 8400.0, "tau_y_Pa": 3800.0}, {"Gp_plateau_Pa": 11000.0, "label": "WNiqSoD", "tau_f_Pa": 760.0, "tau_y_Pa": 400.0}, {"Gp_plateau_Pa": 1500000.0, "label": "QmlsAvS", "tau_f_Pa": 82000.0, "tau_y_Pa": 30000.0}] | |
12433d26 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 100000.0, "label": "XaOaAQtaM", "tau_f_Pa": 6700.0, "tau_y_Pa": 2700.0}] | |
137731a3 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 15000.0, "label": "Vlu", "tau_f_Pa": 380.0, "tau_y_Pa": 260.0}, {"Gp_plateau_Pa": 690000.0, "label": "MAipFTp", "tau_f_Pa": 31000.0, "tau_y_Pa": 15000.0}, {"Gp_plateau_Pa": 110000.0, "label": "rARR", "tau_f_Pa": 13000.0, "tau_y_Pa": 4700.0}] | |
14e43af9 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 3000000.0, "label": "gDjwTgTgF", "tau_f_Pa": 220000.0, "tau_y_Pa": 97000.0}, {"Gp_plateau_Pa": 570000.0, "label": "jjcrdE", "tau_f_Pa": 16000.0, "tau_y_Pa": 9900.0}, {"Gp_plateau_Pa": 19000.0, "label": "OnxCD", "tau_f_Pa": 1900.0, "tau_y_Pa": 690.0}] | |
15b8739d | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 56000.0, "label": "YpACFHXoJ", "tau_f_Pa": 2500.0, "tau_y_Pa": 1500.0}, {"Gp_plateau_Pa": 49000000.0, "label": "AEsw", "tau_f_Pa": 960000.0, "tau_y_Pa": 460000.0}, {"Gp_plateau_Pa": 1700000.0, "label": "HvqNtkeb", "tau_f_Pa": 110000.0, "tau_y_Pa": 43000.0}] | |
16dfa8b1 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 860000.0, "label": "mohOC", "tau_f_Pa": 93000.0, "tau_y_Pa": 37000.0}, {"Gp_plateau_Pa": 27000000.0, "label": "VbNfhdSBl", "tau_f_Pa": 1800000.0, "tau_y_Pa": 1200000.0}, {"Gp_plateau_Pa": 5200.0, "label": "QmWVxjKL", "tau_f_Pa": 250.0, "tau_y_Pa": 130.0}] | |
1832dfb4 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 38000000.0, "label": "Rzdrxqnb", "tau_f_Pa": 2300000.0, "tau_y_Pa": 1100000.0}, {"Gp_plateau_Pa": 2900000.0, "label": "GayHc", "tau_f_Pa": 150000.0, "tau_y_Pa": 80000.0}, {"Gp_plateau_Pa": 26000.0, "label": "oljmZglQw", "tau_f_Pa": 1300.0, "tau_y_Pa": 440.0}] | |
18d176d2 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 2800.0, "label": "OPyPllIKa", "tau_f_Pa": 140.0, "tau_y_Pa": 120.0}, {"Gp_plateau_Pa": 3200000.0, "label": "upzghhnXI", "tau_f_Pa": 92000.0, "tau_y_Pa": 61000.0}, {"Gp_plateau_Pa": 3300.0, "label": "hSoUpfHDP", "tau_f_Pa": 110.0, "tau_y_Pa": 65.0}, {"Gp_plateau_Pa": 2800000.0, "label": "gYCRTgmB", "t... | |
1cf36221 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 170000.0, "label": "AlFNGbfQ", "tau_f_Pa": 15000.0, "tau_y_Pa": 5900.0}, {"Gp_plateau_Pa": 2800.0, "label": "aMwcSLwb", "tau_f_Pa": 270.0, "tau_y_Pa": 110.0}, {"Gp_plateau_Pa": 3200000.0, "label": "DxYowM", "tau_f_Pa": 360000.0, "tau_y_Pa": 200000.0}, {"Gp_plateau_Pa": 32000.0, "label": "nxNzVe", "ta... | |
1e207d13 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 390000.0, "label": "kCHmoBB", "tau_f_Pa": 33000.0, "tau_y_Pa": 14000.0}, {"Gp_plateau_Pa": 26000000.0, "label": "EQFcNL", "tau_f_Pa": 1500000.0, "tau_y_Pa": 770000.0}, {"Gp_plateau_Pa": 1000000.0, "label": "qmYvtr", "tau_f_Pa": 39000.0, "tau_y_Pa": 21000.0}] | |
1e24bd4b | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 37000.0, "label": "ClsQ", "tau_f_Pa": 1600.0, "tau_y_Pa": 880.0}, {"Gp_plateau_Pa": 110000.0, "label": "YgQPXxkX", "tau_f_Pa": 9400.0, "tau_y_Pa": 3800.0}] | |
22682b9c | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 560000.0, "label": "YLsdH", "tau_f_Pa": 36000.0, "tau_y_Pa": 17000.0}] | |
23bf596c | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 2000.0, "label": "MdWcV", "tau_f_Pa": 110.0, "tau_y_Pa": 78.0}] | |
345210d5 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 540000.0, "label": "xGZCDQ", "tau_f_Pa": 56000.0, "tau_y_Pa": 28000.0}, {"Gp_plateau_Pa": 440000.0, "label": "gUlgz", "tau_f_Pa": 35000.0, "tau_y_Pa": 23000.0}] | |
35e8e4af | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 40000.0, "label": "pmAAW", "tau_f_Pa": 2600.0, "tau_y_Pa": 1100.0}] | |
36078906 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 920000.0, "label": "XpRcL", "tau_f_Pa": 100000.0, "tau_y_Pa": 32000.0}, {"Gp_plateau_Pa": 510000.0, "label": "ghdBs", "tau_f_Pa": 39000.0, "tau_y_Pa": 20000.0}, {"Gp_plateau_Pa": 130000.0, "label": "Dfd", "tau_f_Pa": 7600.0, "tau_y_Pa": 3300.0}, {"Gp_plateau_Pa": 170.0, "label": "BQvzyAdt", "tau_f_Pa... | |
369b7e18 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 510000.0, "label": "lnjrjsQxW", "tau_f_Pa": 27000.0, "tau_y_Pa": 13000.0}] | |
3a16559a | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 310000.0, "label": "YNrfsXUg", "tau_f_Pa": 18000.0, "tau_y_Pa": 9000.0}, {"Gp_plateau_Pa": 440.0, "label": "sxd", "tau_f_Pa": 45.0, "tau_y_Pa": 21.0}, {"Gp_plateau_Pa": 230000.0, "label": "VcL", "tau_f_Pa": 8400.0, "tau_y_Pa": 4100.0}] | |
3b4a988d | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 22000000.0, "label": "qAnhbNTnQ", "tau_f_Pa": 1800000.0, "tau_y_Pa": 1200000.0}, {"Gp_plateau_Pa": 28000.0, "label": "sYFyMV", "tau_f_Pa": 2600.0, "tau_y_Pa": 1300.0}, {"Gp_plateau_Pa": 140000.0, "label": "RYAEgfjE", "tau_f_Pa": 3200.0, "tau_y_Pa": 2400.0}, {"Gp_plateau_Pa": 51000.0, "label": "WwRNV"... | |
3e30d53c | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 6100000.0, "label": "xYqsWMP", "tau_f_Pa": 470000.0, "tau_y_Pa": 300000.0}, {"Gp_plateau_Pa": 4500.0, "label": "KOcneO", "tau_f_Pa": 310.0, "tau_y_Pa": 130.0}, {"Gp_plateau_Pa": 760000.0, "label": "IqaPDhqXV", "tau_f_Pa": 80000.0, "tau_y_Pa": 33000.0}] | |
40d65ef3 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 49000000.0, "label": "ldzI", "tau_f_Pa": 3100000.0, "tau_y_Pa": 1800000.0}] | |
4218acd8 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 15000.0, "label": "Vlu", "tau_f_Pa": 380.0, "tau_y_Pa": 260.0}, {"Gp_plateau_Pa": 690000.0, "label": "MAipFTp", "tau_f_Pa": 31000.0, "tau_y_Pa": 15000.0}, {"Gp_plateau_Pa": 110000.0, "label": "rARR", "tau_f_Pa": 13000.0, "tau_y_Pa": 4700.0}] | |
436dbe8f | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 64000.0, "label": "BehJyDC", "tau_f_Pa": 8900.0, "tau_y_Pa": 3100.0}, {"Gp_plateau_Pa": 13000000.0, "label": "VlTrKmud", "tau_f_Pa": 470000.0, "tau_y_Pa": 340000.0}, {"Gp_plateau_Pa": 2800.0, "label": "JENijQPAO", "tau_f_Pa": 150.0, "tau_y_Pa": 83.0}, {"Gp_plateau_Pa": 7100.0, "label": "lwQaojo", "ta... | |
46e1d7b1 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 320000.0, "label": "jQx", "tau_f_Pa": 27000.0, "tau_y_Pa": 14000.0}, {"Gp_plateau_Pa": 71000.0, "label": "UhtpMYCzl", "tau_f_Pa": 4300.0, "tau_y_Pa": 2500.0}, {"Gp_plateau_Pa": 92000.0, "label": "WsMayKZnZ", "tau_f_Pa": 3900.0, "tau_y_Pa": 1900.0}, {"Gp_plateau_Pa": 1200000.0, "label": "afKXY", "tau_... | |
481284fa | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 25000000.0, "label": "GllELI", "tau_f_Pa": 1300000.0, "tau_y_Pa": 720000.0}, {"Gp_plateau_Pa": 40000.0, "label": "Zgfq", "tau_f_Pa": 3400.0, "tau_y_Pa": 1600.0}, {"Gp_plateau_Pa": 320000.0, "label": "vwjWitgv", "tau_f_Pa": 37000.0, "tau_y_Pa": 15000.0}, {"Gp_plateau_Pa": 1800.0, "label": "MzbRrds", "... | |
4893ce3c | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 130000.0, "label": "czhKO", "tau_f_Pa": 14000.0, "tau_y_Pa": 4800.0}, {"Gp_plateau_Pa": 27000.0, "label": "iGuVkAAl", "tau_f_Pa": 900.0, "tau_y_Pa": 540.0}, {"Gp_plateau_Pa": 21000.0, "label": "nYt", "tau_f_Pa": 2000.0, "tau_y_Pa": 850.0}] | |
4c2d0f06 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 14.0, "label": "tOA", "tau_f_Pa": 1.2, "tau_y_Pa": 0.53}] | |
4d481cfd | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 2800000.0, "label": "FDDF", "tau_f_Pa": 100000.0, "tau_y_Pa": 56000.0}, {"Gp_plateau_Pa": 1600.0, "label": "mJULQ", "tau_f_Pa": 95.0, "tau_y_Pa": 41.0}] | |
57b35ee0 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 920000.0, "label": "XpRcL", "tau_f_Pa": 100000.0, "tau_y_Pa": 32000.0}, {"Gp_plateau_Pa": 510000.0, "label": "ghdBs", "tau_f_Pa": 39000.0, "tau_y_Pa": 20000.0}, {"Gp_plateau_Pa": 130000.0, "label": "Dfd", "tau_f_Pa": 7600.0, "tau_y_Pa": 3300.0}, {"Gp_plateau_Pa": 170.0, "label": "BQvzyAdt", "tau_f_Pa... | |
5a5e5385 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 15000.0, "label": "ktdQUJh", "tau_f_Pa": 940.0, "tau_y_Pa": 350.0}, {"Gp_plateau_Pa": 16000.0, "label": "OIAwn", "tau_f_Pa": 590.0, "tau_y_Pa": 340.0}, {"Gp_plateau_Pa": 990000.0, "label": "qhC", "tau_f_Pa": 54000.0, "tau_y_Pa": 21000.0}] | |
5ad65584 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 5500.0, "label": "udIsXw", "tau_f_Pa": 480.0, "tau_y_Pa": 160.0}] | |
5cd370c1 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 16000.0, "label": "oABt", "tau_f_Pa": 940.0, "tau_y_Pa": 510.0}, {"Gp_plateau_Pa": 13000.0, "label": "PjrIG", "tau_f_Pa": 870.0, "tau_y_Pa": 360.0}] | |
5da9ec25 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 230000.0, "label": "Uyy", "tau_f_Pa": 15000.0, "tau_y_Pa": 10000.0}, {"Gp_plateau_Pa": 18000000.0, "label": "rayKgX", "tau_f_Pa": 970000.0, "tau_y_Pa": 590000.0}, {"Gp_plateau_Pa": 12000.0, "label": "EoNFSD", "tau_f_Pa": 1300.0, "tau_y_Pa": 370.0}, {"Gp_plateau_Pa": 4500000.0, "label": "IJg", "tau_f_... | |
5e0acc2a | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 56000.0, "label": "YpACFHXoJ", "tau_f_Pa": 2500.0, "tau_y_Pa": 1500.0}, {"Gp_plateau_Pa": 49000000.0, "label": "AEsw", "tau_f_Pa": 960000.0, "tau_y_Pa": 460000.0}, {"Gp_plateau_Pa": 1700000.0, "label": "HvqNtkeb", "tau_f_Pa": 110000.0, "tau_y_Pa": 43000.0}] | |
68b0f9d4 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 25000000.0, "label": "KeOjm", "tau_f_Pa": 1000000.0, "tau_y_Pa": 520000.0}] | |
6b50be9f | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 670000.0, "label": "DufThcQfa", "tau_f_Pa": 20000.0, "tau_y_Pa": 14000.0}, {"Gp_plateau_Pa": 870000.0, "label": "luRgOM", "tau_f_Pa": 43000.0, "tau_y_Pa": 21000.0}, {"Gp_plateau_Pa": 24000.0, "label": "zcbZMjSdZ", "tau_f_Pa": 2300.0, "tau_y_Pa": 970.0}, {"Gp_plateau_Pa": 210000.0, "label": "ebXA", "t... | |
6c69b1cb | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 35000.0, "label": "IgzavQMKn", "tau_f_Pa": 1400.0, "tau_y_Pa": 810.0}, {"Gp_plateau_Pa": 240000.0, "label": "gOiQFfmhG", "tau_f_Pa": 12000.0, "tau_y_Pa": 6200.0}] | |
6d2e2bcd | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 35000.0, "label": "JDoaOUrD", "tau_f_Pa": 2500.0, "tau_y_Pa": 980.0}, {"Gp_plateau_Pa": 760000.0, "label": "qoJRsnAWs", "tau_f_Pa": 44000.0, "tau_y_Pa": 16000.0}, {"Gp_plateau_Pa": 1500000.0, "label": "QUs", "tau_f_Pa": 70000.0, "tau_y_Pa": 48000.0}] | |
6da5055c | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 270000.0, "label": "RJi", "tau_f_Pa": 21000.0, "tau_y_Pa": 9600.0}, {"Gp_plateau_Pa": 27000.0, "label": "ukwXqra", "tau_f_Pa": 1500.0, "tau_y_Pa": 780.0}, {"Gp_plateau_Pa": 160000.0, "label": "nfFFvn", "tau_f_Pa": 11000.0, "tau_y_Pa": 6300.0}, {"Gp_plateau_Pa": 8300000.0, "label": "qLLYnEON", "tau_f_... | |
6f552a8f | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 3400.0, "label": "LxYjtGfvk", "tau_f_Pa": 240.0, "tau_y_Pa": 110.0}, {"Gp_plateau_Pa": 2000000.0, "label": "ewBQfAd", "tau_f_Pa": 94000.0, "tau_y_Pa": 57000.0}] | |
70a75be3 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 860000.0, "label": "mohOC", "tau_f_Pa": 93000.0, "tau_y_Pa": 37000.0}, {"Gp_plateau_Pa": 27000000.0, "label": "VbNfhdSBl", "tau_f_Pa": 1800000.0, "tau_y_Pa": 1200000.0}, {"Gp_plateau_Pa": 5200.0, "label": "QmWVxjKL", "tau_f_Pa": 250.0, "tau_y_Pa": 130.0}] | |
7208958f | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 270000.0, "label": "RJi", "tau_f_Pa": 21000.0, "tau_y_Pa": 9600.0}, {"Gp_plateau_Pa": 27000.0, "label": "ukwXqra", "tau_f_Pa": 1500.0, "tau_y_Pa": 780.0}, {"Gp_plateau_Pa": 160000.0, "label": "nfFFvn", "tau_f_Pa": 11000.0, "tau_y_Pa": 6300.0}, {"Gp_plateau_Pa": 8300000.0, "label": "qLLYnEON", "tau_f_... | |
724acf9f | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 4200000.0, "label": "JjmgLIX", "tau_f_Pa": 400000.0, "tau_y_Pa": 190000.0}, {"Gp_plateau_Pa": 71000.0, "label": "QiljLIAE", "tau_f_Pa": 5800.0, "tau_y_Pa": 3200.0}, {"Gp_plateau_Pa": 16000.0, "label": "WGF", "tau_f_Pa": 1200.0, "tau_y_Pa": 520.0}] | |
72bcbc12 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 1900000.0, "label": "hzxeDfCE", "tau_f_Pa": 91000.0, "tau_y_Pa": 36000.0}, {"Gp_plateau_Pa": 13000.0, "label": "WCSJ", "tau_f_Pa": 2000.0, "tau_y_Pa": 1000.0}] | |
7452cf5b | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 37000.0, "label": "ClsQ", "tau_f_Pa": 1600.0, "tau_y_Pa": 880.0}, {"Gp_plateau_Pa": 110000.0, "label": "YgQPXxkX", "tau_f_Pa": 9400.0, "tau_y_Pa": 3800.0}] | |
806db84d | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 9400.0, "label": "yHzhj", "tau_f_Pa": 430.0, "tau_y_Pa": 240.0}, {"Gp_plateau_Pa": 12000.0, "label": "azlbyzuV", "tau_f_Pa": 560.0, "tau_y_Pa": 370.0}] | |
8231fd20 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 51000000.0, "label": "FGZ", "tau_f_Pa": 2300000.0, "tau_y_Pa": 1100000.0}, {"Gp_plateau_Pa": 500000.0, "label": "NneRRW", "tau_f_Pa": 31000.0, "tau_y_Pa": 11000.0}, {"Gp_plateau_Pa": 710000.0, "label": "flDAeiG", "tau_f_Pa": 62000.0, "tau_y_Pa": 23000.0}] | |
85ae74d6 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 1100.0, "label": "JfOWx", "tau_f_Pa": 79.0, "tau_y_Pa": 43.0}, {"Gp_plateau_Pa": 8400.0, "label": "rSNGl", "tau_f_Pa": 510.0, "tau_y_Pa": 270.0}, {"Gp_plateau_Pa": 11000.0, "label": "msnDA", "tau_f_Pa": 260.0, "tau_y_Pa": 170.0}] | |
8a18a405 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 1000000.0, "label": "hxayCpZeL", "tau_f_Pa": 37000.0, "tau_y_Pa": 26000.0}] | |
8b28d6aa | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 33000.0, "label": "MGG", "tau_f_Pa": 1100.0, "tau_y_Pa": 690.0}, {"Gp_plateau_Pa": 8100.0, "label": "ahobRKMCp", "tau_f_Pa": 280.0, "tau_y_Pa": 150.0}, {"Gp_plateau_Pa": 150000.0, "label": "vJgThhQ", "tau_f_Pa": 9000.0, "tau_y_Pa": 4500.0}, {"Gp_plateau_Pa": 87000.0, "label": "QMkOfjV", "tau_f_Pa": 6... | |
8f40cffd | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 360000.0, "label": "MwSPpCxN", "tau_f_Pa": 24000.0, "tau_y_Pa": 13000.0}, {"Gp_plateau_Pa": 200000.0, "label": "vDhKvFW", "tau_f_Pa": 8800.0, "tau_y_Pa": 4200.0}] | |
93044757 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 750.0, "label": "gpQnemHc", "tau_f_Pa": 37.0, "tau_y_Pa": 23.0}] | |
95343d87 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 48000.0, "label": "NOoyys", "tau_f_Pa": 3100.0, "tau_y_Pa": 1700.0}, {"Gp_plateau_Pa": 47000.0, "label": "LlNXHX", "tau_f_Pa": 3600.0, "tau_y_Pa": 1700.0}] | |
97ffebf0 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 320000.0, "label": "jQx", "tau_f_Pa": 27000.0, "tau_y_Pa": 14000.0}, {"Gp_plateau_Pa": 71000.0, "label": "UhtpMYCzl", "tau_f_Pa": 4300.0, "tau_y_Pa": 2500.0}, {"Gp_plateau_Pa": 92000.0, "label": "WsMayKZnZ", "tau_f_Pa": 3900.0, "tau_y_Pa": 1900.0}, {"Gp_plateau_Pa": 1200000.0, "label": "afKXY", "tau_... | |
99f7c593 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 1800000.0, "label": "WJNtkJ", "tau_f_Pa": 110000.0, "tau_y_Pa": 60000.0}, {"Gp_plateau_Pa": 12000.0, "label": "fDJMMrTww", "tau_f_Pa": 1100.0, "tau_y_Pa": 500.0}, {"Gp_plateau_Pa": 17000.0, "label": "lHA", "tau_f_Pa": 2200.0, "tau_y_Pa": 1100.0}, {"Gp_plateau_Pa": 480000.0, "label": "cOkQDrj", "tau_f... | |
a5248e8f | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 1300000.0, "label": "PIOwoxGsF", "tau_f_Pa": 73000.0, "tau_y_Pa": 38000.0}] | |
a57f892d | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 130.0, "label": "hQXui", "tau_f_Pa": 5.9, "tau_y_Pa": 5.4}, {"Gp_plateau_Pa": 12000.0, "label": "TnEKklxz", "tau_f_Pa": 1400.0, "tau_y_Pa": 600.0}, {"Gp_plateau_Pa": 2600000.0, "label": "DXcDWpZdG", "tau_f_Pa": 190000.0, "tau_y_Pa": 78000.0}, {"Gp_plateau_Pa": 1200.0, "label": "XWpMOUSPi", "tau_f_Pa"... | |
a8eede36 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 31000.0, "label": "Yiajqpu", "tau_f_Pa": 2700.0, "tau_y_Pa": 1300.0}, {"Gp_plateau_Pa": 8100.0, "label": "LJMBMTD", "tau_f_Pa": 530.0, "tau_y_Pa": 230.0}, {"Gp_plateau_Pa": 56000.0, "label": "CspSTkwG", "tau_f_Pa": 8300.0, "tau_y_Pa": 2500.0}, {"Gp_plateau_Pa": 250000.0, "label": "APmLv", "tau_f_Pa":... | |
aaeb9b77 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 22000000.0, "label": "qAnhbNTnQ", "tau_f_Pa": 1800000.0, "tau_y_Pa": 1200000.0}, {"Gp_plateau_Pa": 28000.0, "label": "sYFyMV", "tau_f_Pa": 2600.0, "tau_y_Pa": 1300.0}, {"Gp_plateau_Pa": 140000.0, "label": "RYAEgfjE", "tau_f_Pa": 3200.0, "tau_y_Pa": 2400.0}, {"Gp_plateau_Pa": 51000.0, "label": "WwRNV"... | |
ac748d21 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 3100000.0, "label": "BLrF", "tau_f_Pa": 260000.0, "tau_y_Pa": 110000.0}, {"Gp_plateau_Pa": 12000.0, "label": "umJvsFeL", "tau_f_Pa": 1400.0, "tau_y_Pa": 460.0}, {"Gp_plateau_Pa": 990000.0, "label": "pnZuG", "tau_f_Pa": 100000.0, "tau_y_Pa": 34000.0}] | |
ae1d04bb | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 9400.0, "label": "yHzhj", "tau_f_Pa": 430.0, "tau_y_Pa": 240.0}, {"Gp_plateau_Pa": 12000.0, "label": "azlbyzuV", "tau_f_Pa": 560.0, "tau_y_Pa": 370.0}] | |
b05febc5 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 3500.0, "label": "vDVN", "tau_f_Pa": 130.0, "tau_y_Pa": 69.0}] | |
b0f9716b | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 14.0, "label": "tOA", "tau_f_Pa": 1.2, "tau_y_Pa": 0.53}] | |
b3091208 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 140000.0, "label": "uTNTjx", "tau_f_Pa": 9900.0, "tau_y_Pa": 3800.0}] | |
b47bc3b1 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 13000000.0, "label": "hOCwM", "tau_f_Pa": 530000.0, "tau_y_Pa": 230000.0}] | |
b6096b65 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 180000.0, "label": "mTe", "tau_f_Pa": 8800.0, "tau_y_Pa": 4700.0}, {"Gp_plateau_Pa": 190000.0, "label": "aVlUvqnW", "tau_f_Pa": 8200.0, "tau_y_Pa": 3700.0}, {"Gp_plateau_Pa": 3700000.0, "label": "yEKPeCY", "tau_f_Pa": 180000.0, "tau_y_Pa": 72000.0}, {"Gp_plateau_Pa": 12000.0, "label": "ulCgiUswJ", "t... | |
b80a8b63 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 980000.0, "label": "UEACQXaL", "tau_f_Pa": 40000.0, "tau_y_Pa": 25000.0}, {"Gp_plateau_Pa": 15000000.0, "label": "BkzvXkedz", "tau_f_Pa": 810000.0, "tau_y_Pa": 330000.0}, {"Gp_plateau_Pa": 13000.0, "label": "FeYMioIFL", "tau_f_Pa": 560.0, "tau_y_Pa": 280.0}] | |
c040d670 | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 6400.0, "label": "Epkq", "tau_f_Pa": 760.0, "tau_y_Pa": 270.0}, {"Gp_plateau_Pa": 11000.0, "label": "zSpyPSc", "tau_f_Pa": 720.0, "tau_y_Pa": 330.0}, {"Gp_plateau_Pa": 150000.0, "label": "UvRcRrwLE", "tau_f_Pa": 5800.0, "tau_y_Pa": 3600.0}, {"Gp_plateau_Pa": 47000000.0, "label": "RThJpo", "tau_f_Pa":... | |
c32cb86f | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 580000.0, "label": "vCWDS", "tau_f_Pa": 26000.0, "tau_y_Pa": 12000.0}, {"Gp_plateau_Pa": 22000.0, "label": "QvNcigh", "tau_f_Pa": 2200.0, "tau_y_Pa": 730.0}, {"Gp_plateau_Pa": 5800.0, "label": "edywwRgM", "tau_f_Pa": 450.0, "tau_y_Pa": 250.0}] | |
c515ecdf | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 1100.0, "label": "FlHPgs", "tau_f_Pa": 70.0, "tau_y_Pa": 36.0}, {"Gp_plateau_Pa": 120000.0, "label": "EWMh", "tau_f_Pa": 13000.0, "tau_y_Pa": 5300.0}] | |
c72081a4 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 6600000.0, "label": "WNuHTN", "tau_f_Pa": 520000.0, "tau_y_Pa": 280000.0}, {"Gp_plateau_Pa": 780.0, "label": "InzDYy", "tau_f_Pa": 78.0, "tau_y_Pa": 28.0}, {"Gp_plateau_Pa": 17000.0, "label": "ssJCW", "tau_f_Pa": 1500.0, "tau_y_Pa": 700.0}, {"Gp_plateau_Pa": 4200000.0, "label": "HbRBf", "tau_f_Pa": 2... | |
c86af046 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 920000.0, "label": "wMCih", "tau_f_Pa": 110000.0, "tau_y_Pa": 37000.0}, {"Gp_plateau_Pa": 7000000.0, "label": "XcSKvE", "tau_f_Pa": 420000.0, "tau_y_Pa": 200000.0}, {"Gp_plateau_Pa": 54000.0, "label": "XTywaKyB", "tau_f_Pa": 7400.0, "tau_y_Pa": 2500.0}] | |
cb39aa9a | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 51000000.0, "label": "FGZ", "tau_f_Pa": 2300000.0, "tau_y_Pa": 1100000.0}, {"Gp_plateau_Pa": 500000.0, "label": "NneRRW", "tau_f_Pa": 31000.0, "tau_y_Pa": 11000.0}, {"Gp_plateau_Pa": 710000.0, "label": "flDAeiG", "tau_f_Pa": 62000.0, "tau_y_Pa": 23000.0}] | |
cb454016 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 140000.0, "label": "vyMBJ", "tau_f_Pa": 6900.0, "tau_y_Pa": 3100.0}, {"Gp_plateau_Pa": 7200.0, "label": "Fas", "tau_f_Pa": 500.0, "tau_y_Pa": 170.0}, {"Gp_plateau_Pa": 68000.0, "label": "kaTydCuO", "tau_f_Pa": 7300.0, "tau_y_Pa": 3100.0}, {"Gp_plateau_Pa": 300000.0, "label": "tip", "tau_f_Pa": 10000.... | |
cb56d2ca | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 1600.0, "label": "tCGlrS", "tau_f_Pa": 78.0, "tau_y_Pa": 34.0}, {"Gp_plateau_Pa": 100000.0, "label": "YNWmY", "tau_f_Pa": 5100.0, "tau_y_Pa": 3500.0}, {"Gp_plateau_Pa": 740000.0, "label": "xfjuG", "tau_f_Pa": 53000.0, "tau_y_Pa": 22000.0}, {"Gp_plateau_Pa": 1200.0, "label": "DAW", "tau_f_Pa": 74.0, "... | |
cf6dff56 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 870000.0, "label": "tjQPiaseK", "tau_f_Pa": 97000.0, "tau_y_Pa": 38000.0}, {"Gp_plateau_Pa": 6500000.0, "label": "amzOgvdB", "tau_f_Pa": 260000.0, "tau_y_Pa": 150000.0}, {"Gp_plateau_Pa": 47.0, "label": "SpuXDJDc", "tau_f_Pa": 1.5, "tau_y_Pa": 1.3}, {"Gp_plateau_Pa": 730000.0, "label": "qkgYld", "tau... | |
d0baf5c2 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 1000000.0, "label": "hxayCpZeL", "tau_f_Pa": 37000.0, "tau_y_Pa": 26000.0}] | |
d700ecd6 | Read the SAOS chart and return the yield stress (tau_y) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 560000.0, "label": "YLsdH", "tau_f_Pa": 36000.0, "tau_y_Pa": 17000.0}] | |
de00209d | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 35000.0, "label": "xICVoGc", "tau_f_Pa": 1500.0, "tau_y_Pa": 820.0}, {"Gp_plateau_Pa": 8000.0, "label": "KfRHSp", "tau_f_Pa": 680.0, "tau_y_Pa": 320.0}, {"Gp_plateau_Pa": 38.0, "label": "WwLa", "tau_f_Pa": 1.7, "tau_y_Pa": 1.3}, {"Gp_plateau_Pa": 9900.0, "label": "dNmJ", "tau_f_Pa": 760.0, "tau_y_Pa"... | |
e6870663 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 83000.0, "label": "aqGU", "tau_f_Pa": 6600.0, "tau_y_Pa": 3000.0}, {"Gp_plateau_Pa": 79000.0, "label": "RoG", "tau_f_Pa": 3500.0, "tau_y_Pa": 1800.0}, {"Gp_plateau_Pa": 54000.0, "label": "NLVbG", "tau_f_Pa": 2800.0, "tau_y_Pa": 1900.0}] | |
eaf724cc | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 50000.0, "label": "TbE", "tau_f_Pa": 8800.0, "tau_y_Pa": 3100.0}, {"Gp_plateau_Pa": 9500000.0, "label": "ywbSdi", "tau_f_Pa": 880000.0, "tau_y_Pa": 370000.0}, {"Gp_plateau_Pa": 120000.0, "label": "sxHDWWnNJ", "tau_f_Pa": 7200.0, "tau_y_Pa": 3900.0}] | |
ec3e5383 | Analyze the rheology plot (G' and G'') and return storage modulus values for each material in json. | [{"Gp_plateau_Pa": 780000.0, "label": "HBkgiApWq", "tau_f_Pa": 34000.0, "tau_y_Pa": 23000.0}, {"Gp_plateau_Pa": 380000.0, "label": "XwLExgHjj", "tau_f_Pa": 28000.0, "tau_y_Pa": 14000.0}, {"Gp_plateau_Pa": 1200000.0, "label": "wsHV", "tau_f_Pa": 170000.0, "tau_y_Pa": 47000.0}] | |
eeff2292 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 510000.0, "label": "lnjrjsQxW", "tau_f_Pa": 27000.0, "tau_y_Pa": 13000.0}] | |
efa86c4a | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 200000.0, "label": "ziOdKUd", "tau_f_Pa": 5200.0, "tau_y_Pa": 2100.0}, {"Gp_plateau_Pa": 4100000.0, "label": "CXUIdt", "tau_f_Pa": 420000.0, "tau_y_Pa": 200000.0}, {"Gp_plateau_Pa": 300000.0, "label": "sSeomZrs", "tau_f_Pa": 12000.0, "tau_y_Pa": 6900.0}, {"Gp_plateau_Pa": 1300.0, "label": "rLvBZr", "... | |
f000f4fa | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 24000000.0, "label": "yGU", "tau_f_Pa": 1700000.0, "tau_y_Pa": 950000.0}, {"Gp_plateau_Pa": 330000.0, "label": "ojE", "tau_f_Pa": 11000.0, "tau_y_Pa": 8900.0}] | |
f224edae | Given the SAOS curves, extract Gp_plateau, tau_y, and tau_f for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 4800.0, "label": "mAn", "tau_f_Pa": 270.0, "tau_y_Pa": 170.0}, {"Gp_plateau_Pa": 130.0, "label": "DgzeSDtL", "tau_f_Pa": 6.5, "tau_y_Pa": 4.2}, {"Gp_plateau_Pa": 7400.0, "label": "zmuFDyCt", "tau_f_Pa": 300.0, "tau_y_Pa": 180.0}] | |
f7877ae7 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 170000.0, "label": "AlFNGbfQ", "tau_f_Pa": 15000.0, "tau_y_Pa": 5900.0}, {"Gp_plateau_Pa": 2800.0, "label": "aMwcSLwb", "tau_f_Pa": 270.0, "tau_y_Pa": 110.0}, {"Gp_plateau_Pa": 3200000.0, "label": "DxYowM", "tau_f_Pa": 360000.0, "tau_y_Pa": 200000.0}, {"Gp_plateau_Pa": 32000.0, "label": "nxNzVe", "ta... | |
fa4a1ea7 | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 68000.0, "label": "qUBC", "tau_f_Pa": 1800.0, "tau_y_Pa": 1200.0}, {"Gp_plateau_Pa": 50000.0, "label": "vaZZMCO", "tau_f_Pa": 4100.0, "tau_y_Pa": 2400.0}] | |
ff3a0efe | From the oscillatory stress sweep, extract the flow stress (tau_f) for each material. Respond strictly in json. | [{"Gp_plateau_Pa": 150000.0, "label": "RnOhRHS", "tau_f_Pa": 5600.0, "tau_y_Pa": 3600.0}, {"Gp_plateau_Pa": 310000.0, "label": "tfQP", "tau_f_Pa": 31000.0, "tau_y_Pa": 19000.0}, {"Gp_plateau_Pa": 1100000.0, "label": "DNYhst", "tau_f_Pa": 81000.0, "tau_y_Pa": 33000.0}] | |
fffc4042 | You are a rheology assistant. Extract the storage modulus (Gp_plateau) for each material in the SAOS plot. Respond strictly in json. | [{"Gp_plateau_Pa": 65000.0, "label": "MWY", "tau_f_Pa": 4200.0, "tau_y_Pa": 1900.0}, {"Gp_plateau_Pa": 2600000.0, "label": "RQjUCdjm", "tau_f_Pa": 240000.0, "tau_y_Pa": 110000.0}, {"Gp_plateau_Pa": 160000.0, "label": "kKhGs", "tau_f_Pa": 10000.0, "tau_y_Pa": 5800.0}, {"Gp_plateau_Pa": 390.0, "label": "xTCLmOyDs", "tau_... | |
00d19cb5 | Read the stress–shear-rate chart and extract the consistency index K for each material. Respond strictly in json. | [{"K_Pa_s_n": 4.0, "label": "ysYFyMVM", "n": 0.95, "tau_y_Pa": 100.0}, {"K_Pa_s_n": 76.0, "label": "YAEgfjEv", "n": 0.51, "tau_y_Pa": 40.0}] |
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