全部文献期刊会议图书|学者科研项目
中外文文献  中文文献  外文文献
作者:Jing Zhang , Baohao Zhang , Qiang Chen ...
来源:[J].Nanoscale Research Letters(IF 2.524), 2019, Vol.14 (1), pp.1-9Springer
摘要:Abstract(#br) ᅟ(#br)Physical gelation behaviors of a series of d -gluconic acetal-based derivatives bearing fatty alkyl amine moieties have been investigated. One of these molecules exhibits excellent gelation behaviors in water, and the resultant hydrogels are found to disp...
作者:Le Wan , Zuoxun Zeng , Sankha Subhra Acharyya ...
来源:[J].Journal of Structural Geology(IF 2.285), 2020, Vol.130
摘要:... The analysis is performed by measuring the rock competency following the methods of mainly two types of rheology gauges: (1) Pinch-and-swell structures, and (2) refraction of the veins. We conclude that two main factors control the deformation patterns in Taili, i.e., gra...
作者:Dmitry Zablotsky , Slavko Kralj , Guntars Kitenbergs ...
来源:[J].Journal of Non-Newtonian Fluid Mechanics(IF 1.567), 2020, Vol.278
摘要:Abstract(#br)Due to their magnetic moments solubilized magnetic nanoparticles are able to spontaneously assemble into dipolar mesostructures, which affect the flow behavior. Multi-core magnetic nanoparticles developed for biomedical applications have enhanced magnetic properties ...
作者:Petra Peer , Martina Polaskova , Pavol Suly
来源:[J].Chinese Journal of Polymer Science(IF 1.27), 2018, Vol.36 (6), pp.742-748Springer
摘要:... The preparation of the nanofibrous web and the quality of nanofibres were correlated with the rheology of the polymer solution. It was discerned that drastically intensifying shear viscosity and the elasticity of the solution exerted a negligible effect on the formation o...
作者:Johnny Ching-Wei Lee , Lionel Porcar , Simon A. Rogers
来源:[J].Polymers(IF 1.687), 2019, Vol.11 (7)DOAJ
摘要:... Using the sequence-of-physical-processes framework, we present a natural 3D structure−rheology space that temporally correlates the structural and nonlinear viscoelastic parameters. Exploiting the rheo-small-angle neutron scattering (rheo-SANS) techniques, we demonstra...
作者:Qi Chen , Min Zuo , Yi-hu Song ...
来源:[J].Chinese Journal of Polymer Science(IF 1.27), 2017, Vol.35 (12), pp.1524-1539Springer
摘要:The variation of phase morphology, critical temperature of demixing, and molecular dynamics for polystyrene/poly(vinyl methyl ether) (PS/PVME) blends induced by hydrophilic nanosilica (A200) or hydrophobic nanosilica (R974) was investigated. With the phase separation of blen...
作者:Ali Safaei , Mahmood Masoomi , Seyed Mohammad Reza Razavi
来源:[J].Bulletin of Materials Science(IF 0.584), 2017, Vol.40 (5), pp.971-982Springer
摘要:In this study, the rheology, morphology and mechanical properties of microfibrillar composites based on polypropylene reinforced with polyamide 6 (PA6) fibres have been investigated. Influence of different factors such as the PA6 composition and drawing ratio on the output of the...
作者:Jeremy Spearman
来源:[J].Ocean Dynamics(IF 1.761), 2017, Vol.67 (3-4), pp.485-497Springer
摘要:... This results in a Casson-like rheology equation. Additional structural dynamics is then added, using a theory on the self-similarity of clay suspensions proposed by Coussot ( 1995 ), giving an equation which has the ability to match the equilibrium and time-dependent viscous ...
作者:Siddharth Kulkarni , Prachi Thareja
来源:[J].Rheologica Acta(IF 1.626), 2017, Vol.56 (10), pp.825-840Springer
摘要:We study the influence of confinement on the rheology and structure of nematic liquid crystals (NLCs). NLCs get confined in networks of titania (TiO2, primary particle size = 21 nm) nanoparticles in suspensions of TiO2 and NLC, N -(4-methoxybenzylidene)-4-...
作者:Misbah Sultana , Mobashar Ahmad Butt , Tariq Saeed ...
来源:[J].AAPS PharmSciTech(IF 1.584), 2017, Vol.18 (6), pp.1998-2010Springer
摘要:... Gel of each drug (10% w / w , particle size 180–250 μm), prepared by mixing poloxamer and 8% w / w hydrophilic silicon dioxide (Aerosil® A200), was assessed for rheology, dispersion stability and release profile. Both the drugs remained dispersed in majority of gels fo...

我们正在为您处理中,这可能需要一些时间,请稍等。

资源合作:cnki.scholar@cnki.net, +86-10-82896619   意见反馈:scholar@cnki.net

×