Load-Bearing and Machining Behavior of Treated Nano-sorghum-Millet-Husk-Biosilica- and Kenaf-Fiber-Reinforced Vinyl Ester Composite

IF 2.2 4区 工程技术 Q1 MATERIALS SCIENCE, TEXTILES Fibers and Polymers Pub Date : 2024-10-09 DOI:10.1007/s12221-024-00736-9
G Ananth, S Thirugnanam, Srinivasan Rajaram
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Abstract

This study investigates the mechanical properties of composites focusing on tensile, flexural, compression strength, Izod impact toughness, hardness, fatigue life, creep resistance, and drilling behavior. The approach involves extracting nano-biosilica from sorghum husk and infusing it with silane-treated kenaf fiber under temperature aging conditions to enhance composite materials’ properties. The reinforcement consists of kenaf fibers (34.2–43.2 µm in diameter) and nano-biosilica prepared from sorghum millet husk via a thermochemical method. Silane treatment enhances the adhesive bonding between the matrix (vinyl ester resin and methyl ethyl ketone peroxide in a 10:1 ratio) and reinforcing agents. Composite fabrication employs a hand layup method with varying concentrations of biosilica (1 vol. %, 3 vol. %, and 5 vol. %) and kenaf fiber. Notably, specimens N2 and M2 exhibited superior performance, with N2 achieving tensile strength of 101 MPa, flexural strength of 123 MPa, compression strength of 159.9 MPa, Izod impact toughness of 4.9 kJ/m2, and hardness of 98 Shore-D. Even after undergoing aging at 40 °C and 70% humidity for 30 days, M2 demonstrated remarkable durability to the silane treatment of both fiber and filler with tensile strength of 85 MPa, flexural strength of 117 MPa, compression strength of 143 MPa, Izod impact toughness of 4.2 kJ/m2, and hardness of 95 Shore-D. SEM analysis revealed uniform dispersion of filler particles in N2 and M2, highlighting the effectiveness of the silane treatment in enhancing microstructural characteristics and durability. This research underscores the potential of silane-treated kenaf-fiber- and nano-biosilica-reinforced vinyl ester composites for applications requiring enhanced mechanical properties and durability.

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经处理的纳米高粱-小米-胡麻-生物硅酸和剑麻纤维增强乙烯基酯复合材料的承重和加工性能
本研究调查了复合材料的机械性能,重点是拉伸、弯曲、压缩强度、伊佐德冲击韧性、硬度、疲劳寿命、抗蠕变性和钻孔行为。该方法涉及从高粱壳中提取纳米生物二氧化硅,并在温度老化条件下将其注入硅烷处理过的槿麻纤维,以增强复合材料的性能。增强材料由高粱秆纤维(直径为 34.2-43.2 微米)和通过热化学方法从高粱秆中提取的纳米二氧化硅组成。硅烷处理增强了基体(乙烯基酯树脂和过氧化甲乙酮,比例为 10:1)和增强剂之间的粘合力。复合材料的制作采用了手糊法,并加入了不同浓度的生物二氧化硅(1 体积%、3 体积% 和 5 体积%)和槿麻纤维。值得注意的是,试样 N2 和 M2 表现出优异的性能,其中 N2 拉伸强度达到 101 兆帕、弯曲强度达到 123 兆帕、压缩强度达到 159.9 兆帕、伊佐德冲击韧性达到 4.9 千焦/平方米、硬度达到 98 邵氏硬度。即使在温度为 40 °C、湿度为 70% 的条件下老化 30 天,M2 纤维和填料经硅烷处理后仍表现出显著的耐久性,抗拉强度为 85 兆帕、抗弯强度为 117 兆帕、压缩强度为 143 兆帕、伊佐德冲击韧性为 4.2 kJ/m2、硬度为 95 Shore-D。扫描电子显微镜分析表明,填料颗粒在 N2 和 M2 中均匀分散,凸显了硅烷处理在增强微观结构特征和耐久性方面的有效性。这项研究强调了硅烷处理的槿麻纤维和纳米生物硅增强乙烯基酯复合材料在需要增强机械性能和耐久性的应用中的潜力。
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来源期刊
Fibers and Polymers
Fibers and Polymers 工程技术-材料科学:纺织
CiteScore
3.90
自引率
8.00%
发文量
267
审稿时长
3.9 months
期刊介绍: -Chemistry of Fiber Materials, Polymer Reactions and Synthesis- Physical Properties of Fibers, Polymer Blends and Composites- Fiber Spinning and Textile Processing, Polymer Physics, Morphology- Colorants and Dyeing, Polymer Analysis and Characterization- Chemical Aftertreatment of Textiles, Polymer Processing and Rheology- Textile and Apparel Science, Functional Polymers
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