Journal of Bionic Engineering ›› 2022, Vol. 19 ›› Issue (6): 1886-1898.doi: 10.1007/s42235-022-00239-4

• • 上一篇    

Effect of Filler Content on Flexural and Viscoelastic Properties of Coir Fibers and Argania Nut-shells Reinforced Phenolic Resin Composites

Hala Bensalah1; Marya Raji2,3; Kamal Gueraoui4; Abdelazziz Khtira5; Hamid Essabir2,3,6; Rachid Bouhfd2,3; Abou el kacem Qaiss2,3   

  1. 1 Group of Mechanics and Materials, Energy Research Center, Faculty of Science, Mohammed V University in Rabat, 10100 Rabat, Morocco  2 Composites and Nanocomposites Center, Moroccan Foundation for Advanced Science, Innovation and Research (MAScIR), 10100 Rabat, Morocco  3 Mohammed VI Polytechnic University, Lot 660 Hay Moulay Rachid, 43150 Ben Guerir, Morocco  4 Group of Simulation in Mechanics and Energy, Energy Research Center, Faculty of Science, Mohammed V University, 10100 Rabat, Morocco  5 Group of Semiconductors and Environmental Sensor Technologies, Energy Research Center, Faculty of Science, Mohammed V University, 10100 Rabat, Morocco  6 Mechanic Materials and Composites (MMC), Laboratory of Energy Engineering, Materials and Systems, National School of Applied Sciences of Agadir, Ibn Zohr University, 80000 Agadir, Morocco
  • 收稿日期:2021-11-06 修回日期:2022-06-02 接受日期:2022-06-23 出版日期:2022-11-10 发布日期:2022-11-10
  • 通讯作者: Hamid Essabir; Abou el kacem Qaiss E-mail:h.essabir@uiz.ac.ma; a.qaiss@mascir.ma
  • 作者简介:Hala Bensalah1; Marya Raji2,3; Kamal Gueraoui4; Abdelazziz Khtira5; Hamid Essabir2,3,6; Rachid Bouhfd2,3; Abou el kacem Qaiss2,3

Effect of Filler Content on Flexural and Viscoelastic Properties of Coir Fibers and Argania Nut-shells Reinforced Phenolic Resin Composites

Hala Bensalah1; Marya Raji2,3; Kamal Gueraoui4; Abdelazziz Khtira5; Hamid Essabir2,3,6; Rachid Bouhfd2,3; Abou el kacem Qaiss2,3   

  1. 1 Group of Mechanics and Materials, Energy Research Center, Faculty of Science, Mohammed V University in Rabat, 10100 Rabat, Morocco  2 Composites and Nanocomposites Center, Moroccan Foundation for Advanced Science, Innovation and Research (MAScIR), 10100 Rabat, Morocco  3 Mohammed VI Polytechnic University, Lot 660 Hay Moulay Rachid, 43150 Ben Guerir, Morocco  4 Group of Simulation in Mechanics and Energy, Energy Research Center, Faculty of Science, Mohammed V University, 10100 Rabat, Morocco  5 Group of Semiconductors and Environmental Sensor Technologies, Energy Research Center, Faculty of Science, Mohammed V University, 10100 Rabat, Morocco  6 Mechanic Materials and Composites (MMC), Laboratory of Energy Engineering, Materials and Systems, National School of Applied Sciences of Agadir, Ibn Zohr University, 80000 Agadir, Morocco
  • Received:2021-11-06 Revised:2022-06-02 Accepted:2022-06-23 Online:2022-11-10 Published:2022-11-10
  • Contact: Hamid Essabir; Abou el kacem Qaiss E-mail:h.essabir@uiz.ac.ma; a.qaiss@mascir.ma
  • About author:Hala Bensalah1; Marya Raji2,3; Kamal Gueraoui4; Abdelazziz Khtira5; Hamid Essabir2,3,6; Rachid Bouhfd2,3; Abou el kacem Qaiss2,3

摘要: The characteristics of two different kinds of lignocellulosic materials (vegetable fillers) with two morphologies as Argania nut-shells (ANS) particles and Coir Fibers (CF) were used as reinforcement for phenolic resin (Bakelite) in this work, and the composite are studied as a function of filler types, shape, content (10, 20, and 30% wt. percent) and manufacturing loading force (1500 and 3000 LBs). Compression molding was used to create the composites, which were then evaluated using Scanning electronic microscopy (SEM), Fourier-transform infrared spectroscopy (FTIR), bending, dynamic-mechanical-thermal and rheological studies. The morphology of broken samples demonstrates that both fillers are well dispersed and distributed. When fillers are added to the matrix, the flexural characteristics improve, and the optimal values are attained in the case of Argania nut-shells. The results showed that the kind and shape of the fillers had a direct influence on the dynamic mechanical characteristics of the composites due to the reinforcement's modulus augmentation. It was noticed that, the increment of manufacturing loading force decreased the mechanical and dynamical properties of composites. The optimum properties obtained indicate that the composites can only be manufactured at low manufacturing loading force (1500 LBs).

关键词: Phenolic resin composites , · Bionic materials , · Coir Fibers , · Argania nut-shells , · Dynamical mechanical properties , · Rheological properties

Abstract: The characteristics of two different kinds of lignocellulosic materials (vegetable fillers) with two morphologies as Argania nut-shells (ANS) particles and Coir Fibers (CF) were used as reinforcement for phenolic resin (Bakelite) in this work, and the composite are studied as a function of filler types, shape, content (10, 20, and 30% wt. percent) and manufacturing loading force (1500 and 3000 LBs). Compression molding was used to create the composites, which were then evaluated using Scanning electronic microscopy (SEM), Fourier-transform infrared spectroscopy (FTIR), bending, dynamic-mechanical-thermal and rheological studies. The morphology of broken samples demonstrates that both fillers are well dispersed and distributed. When fillers are added to the matrix, the flexural characteristics improve, and the optimal values are attained in the case of Argania nut-shells. The results showed that the kind and shape of the fillers had a direct influence on the dynamic mechanical characteristics of the composites due to the reinforcement's modulus augmentation. It was noticed that, the increment of manufacturing loading force decreased the mechanical and dynamical properties of composites. The optimum properties obtained indicate that the composites can only be manufactured at low manufacturing loading force (1500 LBs).

Key words: Phenolic resin composites , · Bionic materials , · Coir Fibers , · Argania nut-shells , · Dynamical mechanical properties , · Rheological properties