{"title":"利用新型二氧化硅/Mg(OH)2 绿色复合纳米粒子增强纳米复合材料的机械和热性能","authors":"Hossein Kazemi, Mazaher Salamat-Talab, Davood Ghanbari","doi":"10.1007/s10904-024-03299-7","DOIUrl":null,"url":null,"abstract":"<p>This study aimed to assess the impact of different weight percentages (0.25%, 0.5%, and 0.75%) of novel green nanoparticles on the thermal and mechanical properties of polymer-based nanocomposites. These novel nanoparticles are composed of a silica core and an external component of Mg(OH)2. The external component was synthesized in three different green synthesis techniques, using lemon juice, to achieve different geometries, i.e. dot, beam, and flake. It should be noted that nanoparticle characteristics are verified using XRD and SEM analysis. According to the experiment, adding nanoparticles to the polymer led to significant improvements in its flexural strength (43%), flexural modulus (47%), and mode I fracture toughness (32%). Additionally, the thermal characteristics have demonstrated a notable enhancement in flammability properties. Based on the UL-94 test, nanocomposite specimens were classified as V-0 and V-1, whereas neat samples are NC. Also, incorporating nanoparticles into the polymer can increase LOI by up to 31.4%. The TGA test showed that adding flake composite nanoparticles retains 33% of the specimen mass, while only 2% of neat samples remain. In general, the green composite nanoparticles led to achieving the common properties of both nanomaterials. 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引用次数: 0
摘要
本研究旨在评估不同重量百分比(0.25%、0.5% 和 0.75%)的新型绿色纳米粒子对聚合物基纳米复合材料的热性能和机械性能的影响。这些新型纳米粒子由二氧化硅核心和外部成分 Mg(OH)2 组成。外部成分是用柠檬汁通过三种不同的绿色合成技术合成的,以获得不同的几何形状,即点状、束状和片状。值得注意的是,纳米粒子的特征是通过 XRD 和 SEM 分析验证的。实验结果表明,在聚合物中添加纳米粒子后,其抗弯强度(43%)、抗弯模量(47%)和模式 I 断裂韧性(32%)均有显著提高。此外,热特性也显示出可燃性能的显著提高。根据 UL-94 测试,纳米复合材料试样被归类为 V-0 和 V-1,而纯净试样则被归类为 NC。此外,在聚合物中加入纳米颗粒可使 LOI 增加 31.4%。TGA 测试表明,添加片状复合纳米粒子可保留 33% 的试样质量,而纯净样品仅保留 2%。总的来说,绿色复合纳米颗粒实现了两种纳米材料的共同特性。更明确地说,二氧化硅芯提高了力学性能,而外部的 Mg(OH)2 成分则增强了聚合物的热性能。
Enhancing Mechanical and Thermal Properties of Nanocomposites Using Novel Silica/Mg(OH)2 Green Composite Nanoparticles
This study aimed to assess the impact of different weight percentages (0.25%, 0.5%, and 0.75%) of novel green nanoparticles on the thermal and mechanical properties of polymer-based nanocomposites. These novel nanoparticles are composed of a silica core and an external component of Mg(OH)2. The external component was synthesized in three different green synthesis techniques, using lemon juice, to achieve different geometries, i.e. dot, beam, and flake. It should be noted that nanoparticle characteristics are verified using XRD and SEM analysis. According to the experiment, adding nanoparticles to the polymer led to significant improvements in its flexural strength (43%), flexural modulus (47%), and mode I fracture toughness (32%). Additionally, the thermal characteristics have demonstrated a notable enhancement in flammability properties. Based on the UL-94 test, nanocomposite specimens were classified as V-0 and V-1, whereas neat samples are NC. Also, incorporating nanoparticles into the polymer can increase LOI by up to 31.4%. The TGA test showed that adding flake composite nanoparticles retains 33% of the specimen mass, while only 2% of neat samples remain. In general, the green composite nanoparticles led to achieving the common properties of both nanomaterials. To clarify, the silica core improved mechanical properties, while an external Mg(OH)2 component enhanced the polymer’s thermal properties.
期刊介绍:
Journal of Inorganic and Organometallic Polymers and Materials [JIOP or JIOPM] is a comprehensive resource for reports on the latest theoretical and experimental research. This bimonthly journal encompasses a broad range of synthetic and natural substances which contain main group, transition, and inner transition elements. The publication includes fully peer-reviewed original papers and shorter communications, as well as topical review papers that address the synthesis, characterization, evaluation, and phenomena of inorganic and organometallic polymers, materials, and supramolecular systems.
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