| 71 |
Influence of the 1,2-Unit Content of SBR and Filler Systems on Thermal Aging Behaviors of SBR Composites
Choi SS, Kim JC
Journal of Industrial and Engineering Chemistry, 13(6), 950, 2007 |
| 72 |
Recovery Behaviors of Silica-Reinforced SBR Vulcanizates Using Circular Deformation Test
Choi SS, Lee HM, Ko JE, Kim MC
Journal of Industrial and Engineering Chemistry, 13(7), 1169, 2007 |
| 73 |
Evaluation of accelerated aging procedures of painted galvanised steels by EIS
Fedrizzi L, Bergo A, Fanicchia M
Electrochimica Acta, 51(8-9), 1864, 2006 |
| 74 |
Accelerated aging versus realistic aging in aerospace composite materials. II. Chemistry of thermal aging in a structural composite
Dao B, Hodgkin J, Krstina J, Mardel J, Tian W
Journal of Applied Polymer Science, 102(4), 3221, 2006 |
| 75 |
Accelerated aging versus realistic aging in aerospace composite materials. I. The chemistry of thermal aging in a low-temperature-cure epoxy composite
Dao B, Hodgkin J, Krstina J, Mardel J, Tian W
Journal of Applied Polymer Science, 102(5), 4291, 2006 |
| 76 |
Improvement of alpha-tocopherols long-term efficiency by modeling its heterogeneous natural environment in polyethylene
Strandberg C, Albertsson AC
Journal of Polymer Science Part A: Polymer Chemistry, 44(5), 1660, 2006 |
| 77 |
Effect of mileage on the deactivation of vehicle-aged three-way catalysts
Granados ML, Larese C, Galisteo FC, Mariscal R, Fierro JLG, Fernandez-Ruiz R, Sanguino R, Luna M
Catalysis Today, 107-08, 77, 2005 |
| 78 |
An analysis of DC conductivity in terms of degradation mechanisms induced by thermal aging in polypyrrole/polyaniline blends
Vitoratos E
Current Applied Physics, 5(6), 579, 2005 |
| 79 |
Modeling capacity fade in lithium-ion cells
Liaw BY, Jungst RG, Nagasubramanian G, Case HL, Doughty DH
Journal of Power Sources, 140(1), 157, 2005 |
| 80 |
열노화가 EPDM/실리콘 고무 블렌드의 물성에 미치는 영향
정유경, 이성구, 조봉래, 최길영
Polymer(Korea), 29(2), 166, 2005 |
