受强制性开放获取政策约束的文章 - Shi-Qing Wang了解详情
无法在其他位置公开访问的文章:3 篇
Chain network: key to the ductile behavior of polymer glasses
Z Liu, X Li, Y Zheng, SQ Wang, M Tsige
Macromolecules 51 (5), 1666-1673, 2018
强制性开放获取政策: US National Science Foundation
Delineating nature of stress responses during ductile uniaxial extension of polycarbonate glass
P Lin, J Liu, SQ Wang
Polymer 89, 143, 2016
强制性开放获取政策: US National Science Foundation
Investigating the dependence of elastomeric fracture on temperature and rate
SQ Wang, Z Fan
Rubber Chemistry and Technology 96 (4), 530-550, 2023
强制性开放获取政策: US National Science Foundation
可在其他位置公开访问的文章:31 篇
Why is crystalline poly (lactic acid) brittle at room temperature?
M Razavi, SQ Wang
Macromolecules 52 (14), 5429-5441, 2019
强制性开放获取政策: US National Science Foundation
Crazing and yielding in glassy polymers of high molecular weight
M Razavi, S Cheng, D Huang, S Zhang, SQ Wang
Polymer 197, 122445, 2020
强制性开放获取政策: US National Science Foundation
Shear banding in entangled polymers in the micron scale gap: a confocal-rheoscopic study
PE Boukany, SQ Wang, S Ravindranath, LJ Lee
Soft Matter 11 (41), 8058-8068, 2015
强制性开放获取政策: European Commission
Polystyrene glasses under compression: ductile and brittle behavior
J Liu, S Cheng, SQ Wang
ACS Macro Letters 4, 1072, 2015
强制性开放获取政策: US Department of Energy
Illustrating the molecular origin of mechanical stress in ductile deformation of polymer glasses
X Li, JN Liu, Z Liu, M Tsige, SQ Wang
Phys. Rev. Lett. 120, 077801, 2018
强制性开放获取政策: US National Science Foundation
Brittle‐ductile transition in uniaxial compression of polymer glasses
J Liu, Z Zhao, W Wang, JW Mays, SQ Wang
Journal of Polymer Science Part B: Polymer Physics 57 (12), 758-770, 2019
强制性开放获取政策: US National Science Foundation
How and why polymer glasses lose their ductility due to plasticizers
Y Zhao, J Liu, X Li, SQ Wang
Macromolecules, 2024, 2017
强制性开放获取政策: US National Science Foundation
Inducing nano-confined crystallization in PLLA and PET by elastic melt stretching
M Razavi, W Zhang, HA Khonakdar, A Janke, L Li, SQ Wang
Soft matter 17 (6), 1457-1462, 2021
强制性开放获取政策: US National Science Foundation, 国家自然科学基金委员会
Examining an alternative molecular mechanism to toughen glassy polymers
M Razavi, D Huang, S Liu, H Guo, SQ Wang
Macromolecules 53 (1), 323-333, 2019
强制性开放获取政策: US National Science Foundation
Experiments-inspired molecular modeling of yielding and failure of polymer glasses under large deformation
SQ Wang, SW Cheng
Polymer Glasses, 395, 2016
强制性开放获取政策: US National Science Foundation
Investigating nature of stresses in extension and compression of glassy polymers via stress relaxation
J Liu, Y Zheng, Z Zhao, M Yuan, M Tsige, SQ Wang
Polymer 202, 122517, 2020
强制性开放获取政策: US National Science Foundation
From wall slip to bulk shear banding in entangled polymer solutions
SQ Wang
Macromolecular Chemistry and Physics 220 (1), 1800327, 2019
强制性开放获取政策: US National Science Foundation
Double yielding in deformation of semicrystalline polymers
M Razavi, SQ Wang
Macromolecular chemistry and physics 221 (19), 2000151, 2020
强制性开放获取政策: US National Science Foundation
Finite cohesion due to chain entanglement in polymer melts
S Cheng, Y Lu, SQ Wang
Soft Matter 12, 3340, 2016
强制性开放获取政策: US National Science Foundation, 国家自然科学基金委员会
Toughness arising from inherent strength of polymers
T Smith, C Gupta, Z Fan, GJ Brust, R Vogelsong, C Carr, SQ Wang
Extreme Mechanics Letters 56, 101819, 2022
强制性开放获取政策: US National Science Foundation
Entangled linear polymer solutions at high shear: from strain softening to hardening
G Liu, SQ Wang
Macromolecules 49, 9647, 2016
强制性开放获取政策: US National Science Foundation
Molecular dynamics simulation of entangled melts at high rates: identifying entanglement lockup mechanism leading to true strain hardening
Y Zheng, M Tsige, SQ Wang
Macromolecular Rapid Communications 44 (1), 2200159, 2023
强制性开放获取政策: US National Science Foundation
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