| 1 |
Microstructure and thermodynamic properties of aqueous alumina nanofluids
Gomez-Merino AI, Arjona-Escudero JL, Santos-Raez IM, Rubio-Hernandez FJ
Powder Technology, 353, 509, 2019 |
| 2 |
Constitutive modelling of stress-relaxation behaviour of tempered martensitic P91 steel using sine hyperbolic rate law
Christopher J, Choudhary BK
Materials Chemistry and Physics, 205, 442, 2018 |
| 3 |
Activation volume and its relation with plastic instability
Mishra S, Beura VK, Singh A, Yadava M, Nayan N
Materials Chemistry and Physics, 217, 98, 2018 |
| 4 |
Uniaxial stretching induced pore nucleation and growth in row-nucleated crystalline hard-elastic polypropylene film: The effect of activation volume and stretching work
Xie JY, Xu RJ, Lei CH
Polymer, 158, 10, 2018 |
| 5 |
Indentation-induced stress distribution and pressure effect on the resistivity of YSZ
Daiko Y, Takahashi E, Gueguen Y, Muto H, Matsuda A, Yazawa T, Rouxel T, Iwamoto Y
Solid State Ionics, 286, 96, 2016 |
| 6 |
Pressure and temperature effect on cellulose hydrolysis in pressurized water
Cantero DA, Tapia AS, Bermejo MD, Cocero MJ
Chemical Engineering Journal, 276, 145, 2015 |
| 7 |
High-pressure (GPa) impedance measurements based on an indentation-induced local stress field
Daiko Y, Takahashi E, Hakiri N, Muto H, Matsuda A, Rouxel T, Sangleboeuf JC, Mineshige A, Yazawa T
Solid State Ionics, 254, 6, 2014 |
| 8 |
A new polymer electrolyte based on a discotic liquid crystal triblock copolymer
Stoeva Z, Lu ZB, Ingram MD, Imrie CT
Electrochimica Acta, 93, 279, 2013 |
| 9 |
Internal stress and thermally activated dislocation motion in an AZ63 magnesium alloy
Trojanova Z, Mathis K, Lukac P, Nemeth G, Chmelik F
Materials Chemistry and Physics, 130(3), 1146, 2011 |
| 10 |
Flow activation volume of polystyrene/multiwall carbon nanotubes composites
Martins JA, Cruz VS
Polymer, 52(22), 5149, 2011 |
