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Previously, it wasreported that hig
Previously, it was
reported that high clay strengthening effect is mainly caused by a
large interfacial surface between polymer and clay [1,17,28,29,46].
Yasmin et al. [1] reported that epoxy NCs based on Cloisite 30B had
better mechanical properties compared to systems based on nanoclay I28E (modified with octadecyl trimethyl ammonium salt) at
a same clay content, due to a higher extent of the Cloisite 30B dispersion in epoxy resin. Also, Xidas et al. [29] have reported similar
findings for both glassy and rubbery epoxy NCs, which exhibited
more significant improvements of the storage modulus in the rubbery state than that in the glassy state. This phenomenon could
be related to the presence of the exfoliated clay layers with a high
surface area and a high aspect ratio, which act as physical crosslinkers in polymer matrix. It was reported [13] that the mechanical
properties of the epoxy coating modified with SiO2 nanoparticles
showed a significantly enhanced Young’s modulus of 2.5 GPa, while
for those others modified with Zn, Fe2O3 and halloysite nanoclay it
was in the range from 60 to 350 MPa. These results were obtained
by using the AFM-based nanoindentation technique. In this paper,
we present the mechanical properties of the epoxy nanocomposites evaluated by using the dynamic mechanical spectroscopy. The
storage shear modulus of epoxy resin in the glassy state which was
0.76 GPa (25 ◦C) and increased when organoclay was added upto
1 GPa. In addition, the improvement in stiffness of the NC composites was more pronounced in the rubbery state and ranged from 9.7
to 17 MPa (160 ◦C)
reported that high clay strengthening effect is mainly caused by a
large interfacial surface between polymer and clay [1,17,28,29,46].
Yasmin et al. [1] reported that epoxy NCs based on Cloisite 30B had
better mechanical properties compared to systems based on nanoclay I28E (modified with octadecyl trimethyl ammonium salt) at
a same clay content, due to a higher extent of the Cloisite 30B dispersion in epoxy resin. Also, Xidas et al. [29] have reported similar
findings for both glassy and rubbery epoxy NCs, which exhibited
more significant improvements of the storage modulus in the rubbery state than that in the glassy state. This phenomenon could
be related to the presence of the exfoliated clay layers with a high
surface area and a high aspect ratio, which act as physical crosslinkers in polymer matrix. It was reported [13] that the mechanical
properties of the epoxy coating modified with SiO2 nanoparticles
showed a significantly enhanced Young’s modulus of 2.5 GPa, while
for those others modified with Zn, Fe2O3 and halloysite nanoclay it
was in the range from 60 to 350 MPa. These results were obtained
by using the AFM-based nanoindentation technique. In this paper,
we present the mechanical properties of the epoxy nanocomposites evaluated by using the dynamic mechanical spectroscopy. The
storage shear modulus of epoxy resin in the glassy state which was
0.76 GPa (25 ◦C) and increased when organoclay was added upto
1 GPa. In addition, the improvement in stiffness of the NC composites was more pronounced in the rubbery state and ranged from 9.7
to 17 MPa (160 ◦C)
0/5000
Trước đây, nó đãbáo cáo rằng đất sét cao tăng cường hiệu lực chủ yếu gây ra bởi mộtlớn interfacial bề mặt giữa polymer và đất sét [1,17,28,29,46].Yasmin et al. [1] báo cáo rằng epoxy NCs dựa trên Cloisite 30B cótốt hơn cơ khí tài sản so với hệ thống dựa trên nanoclay I28E (lần với muối amoni octadecyl trimethyl) tạimột đất sét nội dung tương tự, do một mức độ cao của Cloisite 30B phân tán trong nhựa epoxy. Ngoài ra, Xidas et al. [29] đã báo cáo tương tựnhững phát hiện cho thủy tinh và cao su epoxy NCs, trưng bàycải tiến hơn đáng kể của mô đun lí thuộc bang cao su hơn trong bang như thủy tinh. Hiện tượng này có thểthể liên quan đến sự hiện diện của các lớp đất sét exfoliated với một caodiện tích bề mặt và một tỷ lệ khía cạnh cao, mà hành động như là vật lý crosslinkers trong ma trận polymer. Nó đã là báo cáo [13] mà cơ khíCác thuộc tính của lớp phủ epoxy lần với SiO2 hạt nanocho thấy một thanh niên nâng cao đáng kể của mô đun 2,5 điểm trung bình, trong khiĐối với những người khác lần với Zn, Fe2O3 và halloysite nanoclay nólà trong khoảng từ 60 đến 350 MPa. Những kết quả này đã thu đượcbằng cách sử dụng các kỹ thuật AFM dựa trên nanoindentation. Trong bài báo này,chúng tôi trình bày các tính chất cơ học của epoxy nanocomposites đánh giá bằng cách sử dụng phổ học năng động cơ khí. Cáclí shear các mô đun của nhựa epoxy thuộc bang thủy tinh được0,76 GPa (25 ◦C) và tăng khi organoclay đã được bổ sung tối đa1 điểm trung bình. Ngoài ra, cải thiện độ cứng của vật liệu tổng hợp NC hơn được phát âm là cao su bang và trải dài từ 9.7đến 17 MPa (160 ◦C)
đang được dịch, vui lòng đợi..
Previously, it was
reported that high clay strengthening effect is mainly caused by a
large interfacial surface between polymer and clay [1,17,28,29,46].
Yasmin et al. [1] reported that epoxy NCs based on Cloisite 30B had
better mechanical properties compared to systems based on nanoclay I28E (modified with octadecyl trimethyl ammonium salt) at
a same clay content, due to a higher extent of the Cloisite 30B dispersion in epoxy resin. Also, Xidas et al. [29] have reported similar
findings for both glassy and rubbery epoxy NCs, which exhibited
more significant improvements of the storage modulus in the rubbery state than that in the glassy state. This phenomenon could
be related to the presence of the exfoliated clay layers with a high
surface area and a high aspect ratio, which act as physical crosslinkers in polymer matrix. It was reported [13] that the mechanical
properties of the epoxy coating modified with SiO2 nanoparticles
showed a significantly enhanced Young’s modulus of 2.5 GPa, while
for those others modified with Zn, Fe2O3 and halloysite nanoclay it
was in the range from 60 to 350 MPa. These results were obtained
by using the AFM-based nanoindentation technique. In this paper,
we present the mechanical properties of the epoxy nanocomposites evaluated by using the dynamic mechanical spectroscopy. The
storage shear modulus of epoxy resin in the glassy state which was
0.76 GPa (25 ◦C) and increased when organoclay was added upto
1 GPa. In addition, the improvement in stiffness of the NC composites was more pronounced in the rubbery state and ranged from 9.7
to 17 MPa (160 ◦C)
reported that high clay strengthening effect is mainly caused by a
large interfacial surface between polymer and clay [1,17,28,29,46].
Yasmin et al. [1] reported that epoxy NCs based on Cloisite 30B had
better mechanical properties compared to systems based on nanoclay I28E (modified with octadecyl trimethyl ammonium salt) at
a same clay content, due to a higher extent of the Cloisite 30B dispersion in epoxy resin. Also, Xidas et al. [29] have reported similar
findings for both glassy and rubbery epoxy NCs, which exhibited
more significant improvements of the storage modulus in the rubbery state than that in the glassy state. This phenomenon could
be related to the presence of the exfoliated clay layers with a high
surface area and a high aspect ratio, which act as physical crosslinkers in polymer matrix. It was reported [13] that the mechanical
properties of the epoxy coating modified with SiO2 nanoparticles
showed a significantly enhanced Young’s modulus of 2.5 GPa, while
for those others modified with Zn, Fe2O3 and halloysite nanoclay it
was in the range from 60 to 350 MPa. These results were obtained
by using the AFM-based nanoindentation technique. In this paper,
we present the mechanical properties of the epoxy nanocomposites evaluated by using the dynamic mechanical spectroscopy. The
storage shear modulus of epoxy resin in the glassy state which was
0.76 GPa (25 ◦C) and increased when organoclay was added upto
1 GPa. In addition, the improvement in stiffness of the NC composites was more pronounced in the rubbery state and ranged from 9.7
to 17 MPa (160 ◦C)
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