Effects of cell size and cell wall thickness variations on the stiffness of closed-cell foams

Chen, Youming; Das, Raj; Battley, Mark

doi:10.1016/j.ijsolstr.2014.09.022

Cited by 131 publications

(100 citation statements)

References 42 publications

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“…Figure 4(a–d) shows that the cell structure is a mixture of open and closed cells32. As shown in Figure S1(a–d), the cell mean sizes (sample 1: 22.94 μm, sample 3: 18.27 μm, sample 4: 12.83 μm, sample 6: 7.68 μm) were decreased with the increasing of DCP content in the SBR matrix from sample 1 to 6.…”

Section: Resultsmentioning

confidence: 87%

The Synergy of Double Cross-linking Agents on the Properties of Styrene Butadiene Rubber Foams

Shao

et al. 2016

Sci Rep

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Sulfur (S) cross-linking styrene butadiene rubber (SBR) foams show high shrinkage due to the cure reversion, leading to reduced yield and increased processing cost. In this paper, double cross-linking system by S and dicumyl peroxide (DCP) was used to decrease the shrinkage of SBR foams. Most importantly, the synergy of double cross-linking agents was reported for the first time to our knowledge. The cell size and its distribution of SBR foams were investigated by FESEM images, which show the effect of DCP content on the cell structure of the SBR foams. The relationships between shrinkage and crystalline of SBR foams were analyzed by the synergy of double cross-linking agents, which were demonstrated by FTIR, Raman spectra, XRD, DSC and TGA. When the DCP content was 0.6 phr, the SBR foams exhibit excellent physical and mechanical properties such as low density (0.223 g/cm3), reduced shrinkage (2.25%) and compression set (10.96%), as well as elevated elongation at break (1.78 × 103%) and tear strength (54.63 N/mm). The results show that these properties are related to the double cross-linking system of SBR foams. Moreover, the double cross-linking SBR foams present high electromagnetic interference (EMI) shielding properties compared with the S cross-linking SBR foams.

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Section: Resultsmentioning

confidence: 87%

The Synergy of Double Cross-linking Agents on the Properties of Styrene Butadiene Rubber Foams

Shao

et al. 2016

Sci Rep

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“…Additionally, Youssef et al [16] generated realistic numerical models of closed-cell polyurethane foam using the X-ray tomography technique. Chen et al [17] conducted micromechanical modelling of closed-cell M310 polymeric foams in which the effect of cell size and wall thickness distribution on foam stiffness was investigated.…”

Section: Introductionmentioning

confidence: 99%

Microstructure and mechanical properties of ALPORAS closed-cell aluminium foam

Jang

Hsieh

Miao

et al. 2015

Materials Characterization

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“…The relevance of packing algorithms extends beyond simple particle-matrix microstructures because the resulting packings often serve as initial seeds for tessellation-based models applicable to polycrystals [41,42], foams [34], and cell tissues [43,44]. Due to its straightforward implementation, Voronoï tessellation is the most common choice; however, the resulting geometry is oversimplified for many materials.…”

Section: State-of-the-art In Modelling Random Microstructuresmentioning

confidence: 99%

Level-set Based Design of Wang Tiles for Modelling Complex Microstructures

Doškář

Zeman

Rypl

et al. 2020

Computer-Aided Design

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Microstructural geometry plays a critical role in the response of heterogeneous materials. Consequently, methods for generating microstructural samples are increasingly crucial to advanced numerical analyses. We extend Sonon et al.'s unified framework, developed originally for generating particulate and foam-like microstructural geometries of Periodic Unit Cells, to non-periodic microstructural representations based on the formalism of Wang tiles. This formalism has been recently proposed in order to generalize the Periodic Unit Cell approach, enabling a fast synthesis of arbitrarily large, stochastic microstructural samples from a handful of domains with predefined microstructural compatibility constraints. However, a robust procedure capable of designing complex, three-dimensional, foam-like and cellular morphologies of Wang tiles has not yet been proposed. This contribution fills the gap by significantly broadening the applicability of the tiling concept.Since the original Sonon et al.'s framework builds on a random sequential addition of particles enhanced with an implicit representation of particle boundaries by the level-set field, we first devise an analysis based on a connectivity graph of a tile set, resolving the question where a particle should be copied when it intersects a tile boundary. Next, we introduce several modifications to the original algorithm that are necessary to ensure microstructural compatibility in the generalized periodicity setting of Wang tiles. Having established a universal procedure for generating tile morphologies, we compare strictly aperiodic and stochastic sets with the same cardinality in terms of reducing the artificial periodicity in reconstructed microstructural samples. We demonstrate the superiority of the vertex-defined tile sets for two-dimensional problems and illustrate the capabilities of the algorithm with two-and three-dimensional examples.

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Effects of cell size and cell wall thickness variations on the stiffness of closed-cell foams

Cited by 131 publications

References 42 publications

The Synergy of Double Cross-linking Agents on the Properties of Styrene Butadiene Rubber Foams

The Synergy of Double Cross-linking Agents on the Properties of Styrene Butadiene Rubber Foams

Microstructure and mechanical properties of ALPORAS closed-cell aluminium foam

Level-set Based Design of Wang Tiles for Modelling Complex Microstructures

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