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Results:
1-8
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Results: 8
Authors:
SHEBERSHNEVA OV
IZOTOV AD
GAVRICHEV KS
LAZAREV VB
Citation: Ov. Shebershneva et al., A METHOD FOR TREATING LOW-TEMPERATURE CALORIMETRY DATA WITH REGARD TOTHE MULTIFRACTALITY OF ATOMIC VIBRATIONS, Inorganic materials, 32(1), 1996, pp. 28-32
Authors:
LAZAREV VB
IZOTOV AD
GAVRICHEV KS
SHEBERSHNEVA OV
Citation: Vb. Lazarev et al., FRACTAL MODEL OF HEAT-CAPACITY FOR SUBSTANCES WITH DIAMOND-LIKE STRUCTURES, Thermochimica acta, 269, 1995, pp. 109-116
Authors:
SANYGIN VP
SHEBERSHNEVA OV
LAZAREV VB
Citation: Vp. Sanygin et al., 3 APPROACHES TO CALCULATION OF THE THERMODYNAMIC STABILITY OF RBA(2)CU(3)O(X), R(2)BA(4)CU(7)O(X), AND RBA(2)CU(4)O(X) (R=Y, LA-LU) AT STANDARD CONDITIONS, Inorganic materials, 30(9), 1994, pp. 1086-1089
Authors:
IZOTOV AD
GAVRICHEV KS
LAZAREV VB
SHEBERSHNEVA OV
Citation: Ad. Izotov et al., TEMPERATURE-DEPENDENCE OF HEAT-CAPACITY FOR SUBSTANCES WITH A MULTIFRACTAL STRUCTURE, Inorganic materials, 30(4), 1994, pp. 424-430
Authors:
SANYGIN VP
SHEBERSHNEVA OV
GUSKOV VN
Citation: Vp. Sanygin et al., ANALYSIS OF THE THERMODYNAMIC STABILITY OF YBA2CU3O6.5 WITH RESPECT TO SIMPLE OXIDES IN THE RANGE 298.15 - 1300 K, Inorganic materials, 30(2), 1994, pp. 209-213
Authors:
SHEBERSHNEVA OV
SANYGIN VP
LAZAREV VB
Citation: Ov. Shebershneva et al., ON THE STABILITY OF MATERIALS BASED ON HIGH-T-C OXIDE YBA2CU3OX, Inorganic materials, 30(12), 1994, pp. 1480-1483
Authors:
SANYGIN VP
SHEBERSHNEVA OV
LAZAREV VB
Citation: Vp. Sanygin et al., ANALYSIS OF THE THERMODYNAMIC STABILITY OF YBA2CU3OX TO DECOMPOSITIONINTO SUBSTITUENT OXIDES (X=6.5-7.0, T=298-1200K), Inorganic materials, 30(11), 1994, pp. 1363-1369
Authors:
SANYGIN VP
SHEBERSHNEVA OV
LAZAREV VB
Citation: Vp. Sanygin et al., ANALYSIS OF THE STABILITY OF YBA2CU3OX (X=6.5-7.0, T=298-1200K) TO DECOMPOSITION INTO Y2BACUO5, BACUO2, AND CUO, Inorganic materials, 30(11), 1994, pp. 1370-1375
Risultati:
1-8
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