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271.
J. G. F. Wismans L. E. Govaert J. A. W. van Dommelen 《Journal of polymer science. Part A, Polymer chemistry》2010,48(13):1526-1534
A hybrid numerical–experimental approach is used to characterize the macroscopic mechanical behavior of polymeric foams. The method is based on microstructural characterization of foams with X-ray computed tomography (CT) and conversion of the data to finite element (FE) models. The 2D models are created from a 3D close-celled foam and subjected to compression loads. Since the large strain regime is explored, contact between elements is incorporated. It is shown that, for calculating the effective Young's modulus, a model consisting of at least 112–122 cells in the model should be used, whereas for the large strain regime 122–142 cells in the model are needed. Discretization had a significant influence on the results, where relatively coarse elements caused loss of connectivity in the cell walls and thickening of the cell walls. It is shown that at least three to four elements should be taken over the thickness of the cell walls for these structures. Finally, a good qualitative agreement is observed between the deformations found with the FE models and in situ compression experiments of an open-celled foam during X-ray CT. © 2010 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 48: 1473–1482, 2010 相似文献
272.
Ternary composites of Polypropylene (PP)/Short Glass fibers (GF)/Hollow Glass Beads (HGB), with varying total and relative GF/HGB contents and using untreated and aminosilane-treated HGB compatibilized with maleated-PP, were prepared by direct injection molding of pre-extrusion compounded GF and HGB concentrates. The mechanical strength properties (tensile, flexural and Izod impact) were correlated with theoretical model predictions for hybrid composites, which identified synergistic gains over the rule of hybrid mixtures, depending upon the degree of interfacial interactions between the components of the hybrid composite. SEM analysis of cryofractured composites surfaces revealed that the presence of untreated HGB particles induces fiber-polymer interfacial decoupling under mechanical loading of the hybrid composites at much lower stress levels than in the presence of treated HGB particles. Higher storage modulus (E′) and lower mechanical damping (tan δ) from DMTA established the importance of strong polymer-hybrid reinforcement interfacial interactions in the development of lightweight/high strength PP syntactic foams. 相似文献
273.
This study illustrates the preparation of robust superhydrophobic and superoleophilic reduced graphene oxide (rGO) and MoS2 nanoparticles incorporated polyurethane (PU) foam by in-situ polymerization via the one-shot method. Spectroscopic analyses confirmed the successful formation of nanoparticles and also the development of the hybrid PU material. The sponges were evaluated based on hydrophobicity and oil absorbance capacities and the modified foam exhibits the water contact angle of 151°. The pore size of the foam analyzed using an optical microscope and the effect on the density and porosity were also analyzed. The oil absorption capacity of the foam was studied using standard sorption testing. The oil and organic solvent selectivity and recyclability of hybrid PU foam were performed to estimate whether the foams could be recycled and reused. The modified system shows very high selectivity (83–94%). The recyclability of the foam was about 35 cycles without much reduction in its own weight and after 55 cycles more than 80% of the oil absorption capacity was conserved. The resulting hybrid PU material is highly efficient, porous, ultralight, hydrophobic and reusable sorbent material and displays great potential for versatile environmental remediation. 相似文献
274.
Stabilization of Liquid Foams through the Synergistic Action of Particles and an Immiscible Liquid 下载免费PDF全文
Yi Zhang Dr. Jie Wu Dr. Hongzhi Wang Prof. J. Carson Meredith Prof. Sven H. Behrens 《Angewandte Chemie (International ed. in English)》2014,53(49):13385-13389
Liquid foams are familiar from beer, frothed milk, or bubble baths; foams in general also play important roles in oil recovery, lightweight packaging, and insulation. Here a new class of foams is reported, obtained by frothing a suspension of colloidal particles in the presence of a small amount of an immiscible secondary liquid. A unique aspect of these foams, termed capillary foams, is the particle‐mediated spreading of the minority liquid around the gas bubbles. The resulting mixed particle/liquid coating can stabilize bubbles against coalescence even when the particles alone cannot. The coated bubbles are further immobilized by entrapment in a network of excess particles connected by bridges of the minority liquid. Capillary foams were prepared with a diverse set of particle/liquid combinations to demonstrate the generality of the phenomenon. The observed foam stability correlates with the particle affinity for the liquid interface formed by spreading the minority liquid at the bubble surface. 相似文献
275.
Ricardo Molina Alejandro Vílchez Cristina Canal Jordi Esquena 《Surface and interface analysis : SIA》2009,41(5):371-377
Macroporous polystyrene/divinylbenzene (PS‐DVB) monoliths were obtained using highly concentrated W/O emulsions as templates. These monoliths are of interest due to the high potential applications for catalysis, scaffolds for tissue engineering, filters, membranes, or drug delivery systems. Dynamic wetting behavior through the polymer monolith is directly related to contact angle. For this reason, in this paper we investigate the relationship between contact angle, morphology, and chemical composition of the dense skin layer and the highly porous interior surface of PS‐DVB porous monoliths. Whereas the dense skin layer exhibits a Wenzel regime using water as wetting liquid, the highly porous interior surface exhibits a Cassie–Baxter regime. This behavior is correlated with the roughness observed by scanning electron microscopy (SEM). However, the observed contact angle hysteresis seems to indicate that factors other than surface roughness should be taken into account. For this reason, chemical composition was also studied by elemental microanalysis and X‐ray photoelectron spectroscopy (XPS). The differences in chemical composition observed between the dense skin layer and the highly porous interior surface, according to the wetting model for a heterogeneous surface proposed by Johnson and Dettre, seems also to contribute to the wetting hysteresis. The different wetting between the dense skin layer and the highly porous interior surface results in a dual wettability phenomenon, in which a liquid wets the dense skin layer and does not penetrate into the highly porous interior of the PS‐DVB monoliths. This phenomenon can be of relevance in absorption or desorption processes such as in drug delivery processes. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
276.
Jozef Rychlý Agnes Lattuati-DerieuxBertrand Lavédrine Lyda Matisová-RychláMarta Malíková Katarína CsomorováIvica Janigová 《Polymer Degradation and Stability》2011,96(4):462-469
The thermooxidative and thermal stability of polyether- and polyester-type polyurethane foams were investigated by non-isothermal chemiluminescence (CL), differential scanning calorimetry (DSC) and thermogravimetry (TG). In the presence of air and humidity, the effect of various routes and conditions of polyurethane ageing (induced thermally or by light) on the chemiluminescence, DSC and thermogravimetry patterns was assessed. The rate constants determined from non-isothermal thermogravimetry and chemiluminescence measurements at 250 °C and their not very pronounced dependence on the atmosphere of degradation indicated that depolymerisation of the polyurethane containing the aliphatic polyester and aromatic polyisocyanate moieties preceded or occurred in parallel with thermal oxidation. Under conditions of 50% relative humidity, samples of the polyester-type polyurethane, aged either by light or thermally, as well as specimens of the polyether-type polyurethane, aged by light, gave increased amounts of carbonaceous residue when heated in nitrogen to 550 °C. 相似文献
277.
针对惯性约束聚变(ICF)物理实验对具有微加工能力低密度CH泡沫材料的需求,介绍了对二乙烯基苯泡沫的高内相乳液(HIPE)法制备工艺,并讨论了引发剂含量、乳化剂含量、苯乙烯的比例和无机添加剂等对泡沫形貌结构的影响,获得了低密度对二乙烯基苯泡沫的优化制备配方。不同密度对二乙烯基苯泡沫的形貌结构、力学性能和加工性能的表征结果表明:所得泡沫由开孔状球形孔构成,球形孔的直径在1~10μm之间,孔壁上具有直径为0.2~2.0μm的圆形孔洞结构;在密度为50mg/cm3时,泡沫具有5MPa的弹性模量;通过微加工技术能够获得ICF所需柱状和片状低密度泡沫微靶样品,样品最小尺寸可达100μm。 相似文献
278.
We reinterpret an instability in a two-dimensional free foam cluster previously discussed by Weaire et al. (Eur. Phys. J. E 7, 123 (2002)) in terms of the excess pressure in the bubbles. We conclude that in a free foam cluster no bubble can have a
pressure below that of the surrounding gas.
Received: 20 September 2002 / Accepted: 5 May 2003 / Published online: 27 May 2003
RID="a"
ID="a"e-mail: fatima.vaz@ist.utl.pt 相似文献
279.
Bénito S Bruneau CH Colin T Gay C Molino F 《The European physical journal. E, Soft matter》2008,25(3):225-251
A variety of complex fluids consists in soft, round objects (foams, emulsions, assemblies of copolymer micelles or of multilamellar
vesicles--also known as onions). Their dense packing induces a slight deviation from their prefered circular or spherical
shape. As a frustrated assembly of interacting bodies, such a material evolves from one conformation to another through a
succession of discrete, topological events driven by finite external forces. As a result, the material exhibits a finite yield
threshold. The individual objects usually evolve spontaneously (colloidal diffusion, object coalescence, molecular diffusion),
and the material properties under low or vanishing stress may alter with time, a phenomenon known as aging. We neglect such
effects to address the simpler behaviour of (uncommon) immortal fluids: we construct a minimal, fully tensorial, rheological
model, equivalent to the (scalar) Bingham model. Importantly, the model consistently describes the ability of such soft materials
to deform substantially in the elastic regime (be it compressible or not) before they undergo (incompressible) plastic creep--or
viscous flow under even higher stresses. 相似文献
280.
We investigate the geometrical properties of Plateau borders in an arrangement of connected smectic A free standing films. The geometry is chosen such that a circular Plateau border surrounds a planar smectic film and connects it with two smectic catenoids. It is demonstrated that, similar to soap films, the smectic film geometry can be described by a negative line tension of the circular contact region. Thus, the equilibrium angle between the films depends upon the liquid content in this region, and with increasing liquid content, deviations from Plateau's rule are observed. The experimental results are qualitatively comparable to soap films. A possible origin of slight quantitative differences is discussed. 相似文献