Spatial distribution of silica fillers in phase-separated rubber blends investigated by three-dimensional elemental mapping |
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Authors: | Lingyun Lyu Takeshi Hanada Naohiro Yamahira Jun Morita Ryota Yamamoto Ken Itomi Takumi Adachi Sho Kubouchi Shin Horiuchi |
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Affiliation: | 1. Research Laboratory for Adhesion and Interfacial Phenomena (AIRL), Nanomaterials research Institute, National Institute of Advance Industrial Science and Technology (AIST), Tsukuba, Ibaraki, Japan;2. Research Association of High-Throughput Design and Development for Advanced Functional Materials (ADMAT), Ibaraki, Japan |
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Abstract: | The distribution of nano-sized silica in binary rubber blends is characterized by scanning transmission electron microscopy (STEM) tomography combined with energy dispersive X-ray spectrometry (EDX). 3D distribution of silica is visualized by STEM-EDX tomography with the tilt-series of silicon elemental maps, while the phase-separated morphologies of polyisoprene rubber (IR) and styrene-butadiene rubber (SBR) are visualized by STEM-tomography in high-angle-annular-dark field (HAADF) mode. The combination of STEM-EDX and STEM-HAADF tomography enables us to determine the distribution of silica between the two rubber phases quantitatively even with high contents of silica up to 70 phr (weight parts per hundred rubber). It is found that silica is preferentially distributed in the SBR phase, but it is also distributed in the IR phase when the IR fraction in the total rubber components is higher than 40 wt%. The preferential distribution of silica in the SBR phase improves the dispersion of the IR domains. This is the first use of this technique for a multicomponent polymer system, showing the advantage to characterize the complicated multicomponent polymer composite morphologies. |
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Keywords: | microscopy morphology phase behavior |
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