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1. Ionic liquid-modified carbon-based fillers and their polymer composites – A Raman spectroscopy analysis

Author

Shamsuri Ahmad Adlie, Yusoff Mohd Zuhri Mohamed, Abdan Khalina, and Md. Jamil Siti Nurul Ain

Subjects
ionic liquid, carbon-based filler, polymer composite, raman spectroscopy, peak position, intensity ratio, Technology, Chemical technology, TP1-1185
Abstract

In the field of advanced materials, carbon-based fillers are crucial for crafting high-performance polymer composites. Continual innovations in modifying these fillers are expanding the capabilities of polymer composite materials, heralding new advancements in diverse technological areas. Ionic liquids provide innovative methods for modifying carbon-based fillers to improve the performance of polymer composites. In this concise review, numerous carbon-based fillers used for modification, ionic liquids utilized in the modification, and polymer matrices employed in polymer composites are classified. In addition, the impact of ionic liquids on the interactional and structural properties of carbon-based fillers and their polymer composites, as analyzed via Raman spectroscopy, is concisely explained. This review provides a succinct analysis that deepens the understanding of the Raman spectroscopic results pertaining to various carbon-based fillers and polymer composites. In brief, Raman analyses indicate that carbon-based fillers modified with ionic liquids and their composites exhibit upshifted peak positions and higher intensity ratios compared to their unmodified fillers. The upshifts in peak positions are linked to interactions between the fillers and ionic liquids or between the modified fillers and polymer matrices. Higher intensity ratios in these modified fillers and polymer composites suggest increased structural defects in the fillers.

Published
2024
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2. Impact of ionic liquids on the thermal properties of polymer composites

Author

Shamsuri Ahmad Adlie, Abdan Khalina, Yusoff Mohd Zuhri Mohamed, and Jamil Siti Nurul Ain Md.

Subjects
ionic liquid, glass transition temperature, melting temperature, degradation temperature, thermal conductivity, Polymers and polymer manufacture, TP1080-1185
Abstract

The integration of ionic liquids and polymer composites has become a promising way to improve their thermal properties, representing a notable advancement in the development of advanced materials for specific applications. Their thermal properties heavily influence the suitability of polymer composites for particular applications. It is imperative to understand and manipulate the thermal behavior of these composites to optimize their performance across various fields. In this mini-review, diverse polymer matrices and fillers utilized in polymer composites containing ionic liquids are categorized. Additionally, various ionic liquids employed in studies related to the thermal properties of polymer composites are identified. The impact of ionic liquids on the thermal properties of these composites is also briefly reviewed. The knowledge illustrated in this review enriches the understanding of the types of polymer matrices and fillers used in conjunction with ionic liquids, as well as their thermal properties. In a nutshell, imidazolium-based ionic liquids with tetrafluoroborate, bis(trifluoromethylsulfonyl)imide, hexafluorophosphate, halides, and hydrogen sulfate anions have the impact of improving the glass transition temperature, melting temperature, degradation temperature, and thermal conductivity of thermoplastic, thermosetting, and elastomer composites.

Published
2024
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3. Flammability properties of polymers and polymer composites combined with ionic liquids

Author

Shamsuri Ahmad Adlie, Yusoff Mohd Zuhri Mohamed, Abdan Khalina, and Jamil Siti Nurul Ain Md.

Subjects
ionic liquid, flammability, polymer composite, loi, ul-94, Polymers and polymer manufacture, TP1080-1185
Abstract

The flammability properties of polymers and polymer composites are crucial in ensuring their safe use in various applications. The development of flame-retardant technologies continues to be an active area of research to improve the fire safety of these materials. Recently, ionic liquids have been studied in the flammability properties of polymers and polymer composites. In this concise review, different types of polymers and polymer composites that are combined with ionic liquids are discovered. In addition, the preparation of polymers and polymer composites combined with ionic liquids through distinct methods is described. The additive effect of ionic liquids on the flammability properties of polymers and polymer composites is also concisely reviewed. The data demonstrated in this review contribute an extra visible knowledge of the preparation of polymers and polymer composites combined with ionic liquids and their flammability properties. In summary, certain types of ionic liquids can decrease the flammability properties of polymers and increase the flame retardancy of polymer composites.

Published
2023
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5. The influence of ionic liquid pretreatment on the physicomechanical properties of polymer biocomposites: A mini-review

Author

Shamsuri Ahmad Adlie, Jamil Siti Nurul Ain Md., and Abdan Khalina

Subjects
ionic liquid, physicomechanical properties, polymer biocomposite, pretreatment, natural filler, Polymers and polymer manufacture, TP1080-1185
Abstract

Increasing concern for the environment has led researchers to pay more attention to the fabrication of polymer biocomposites for many different applications. Polymer biocomposites have generally been fabricated utilizing synthetic or natural polymers with natural fillers. Recently, ionic liquids have been used for the pretreatment of natural fillers prior to the fabrication of polymer biocomposites. In this mini-review, four types of ionic liquids used for the pretreatment of natural filler are classified, specifically chloride-, diethyl phosphate-, acetate-, and bistriflimide-based ionic liquids. In addition, the pretreatment processes of natural fillers with ionic liquids are described in this review. Furthermore, the influence of ionic liquid pretreatment on the physicomechanical properties of polymer biocomposites is succinctly reviewed. Besides, the information presented in this review contributes to a clearer understanding of the process of ionic liquid pretreatment and the vital physicomechanical properties of polymer biocomposites. In summary, most ionic liquid pretreatments can improve almost all physicomechanical properties of polymer biocomposites.

Published
2022
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6. Properties and applications of cellulose regenerated from cellulose/imidazolium-based ionic liquid/co-solvent solutions: A short review

Author

Shamsuri Ahmad Adlie, Abdan Khalina, and Jamil Siti Nurul Ain Md.

Subjects
cellulose, regeneration, imidazolium, ionic liquid, co-solvent, Polymers and polymer manufacture, TP1080-1185
Abstract

An improvement of ecological conscience currently has increased the consciousness of researchers in reducing the processing time and cost of solvent for the dissolution of cellulose. Latterly, ionic liquids have been employed to process cellulose as they are recyclable and nonvolatile. Besides that, biopolymers such as chitosan, chitin, starch, protein, and cellulose acetate can also be processed by using ionic liquids for diverse applications. In this short review, examples of imidazolium-based ionic liquids that are commonly used for the dissolution of cellulose are implied. Furthermore, examples of organic liquids that are utilized as co-solvents for ionic liquids were revealed. In addition, examples of imidazolium-based ionic liquid/co-solvent mixtures utilized in the dissolution of cellulose and other biopolymers are also demonstrated. The properties and applications of cellulose and its blends regenerated from different types of cellulose/imidazolium-based ionic liquid/co-solvent solutions are also shortly reviewed. The information acquired from this review gives a better understanding of the changes in the properties of regenerated cellulose and regenerated cellulose blends. In addition, this short review serves as a model basis for the creation of novel applications of regenerated cellulose and regenerated cellulose blends by utilizing imidazolium-based ionic liquid/co-solvent mixtures.

Published
2021
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7. Extraction and characterization of natural fibers from Pulicaria gnaphalodes plant and effect of alkali treatment on their physicochemical and antioxidant properties.

Author

Alsafran, Mohammed, Sadasivuni, Kishor Kumar, Haneesh, Julna Mohammed, Kasote, Deepak M., Shamsuri, Ahmad Adlie, and Shabbir, Mohd

Subjects
NATURAL fibers, ANTIOXIDANTS, THERMOGRAVIMETRY, THERMAL stability, X-ray diffraction, RADICALS (Chemistry)
Abstract

The study aimed to extract and characterize natural fibers from Pulicaria gnaphalodes (Vent.) Boiss. plants and assess the impact of alkali treatment on the physicochemical and antioxidant properties of these fibers. Fibers were extracted from dried P. gnaphalodes aerial parts by grinding with an average yield of 18.1%. Physicochemical and FTIR analysis revealed that the hemicellulose was mostly lost during alkali treatment. Results of the X-ray diffraction and thermogravimetric analysis indicated that the crystallinity and thermal stability of P. gnaphalodes fibers were considerably increased after alkali treatment. In antioxidant activity assessment studies, raw fibers of P. gnaphalodes showed significantly higher radical scavenging and reducing power potentials compared to the alkali-treated samples, indicating that the majority of antioxidant components such as lignin and other polyphenols were lost from P. gnaphalodes fibers during alkali treatment. In conclusion, the promising antioxidant activity of raw P. gnaphalodes can be utilized in developing functional materials, particularly for cosmetic and wound healing applications. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Methods and Mechanical Properties of Polymer Hybrid Composites and Hybrid Polymer Composites: Influence of Ionic Liquid Addition.

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Yusoff, Mohd Zuhri Mohamed, and Abdan, Khalina

Subjects
POLYMERS, COMPOSITE materials, IONIC liquids, IMIDAZOLES, TENSILE strength
Abstract

Polymer hybrid composites and hybrid polymer composites are distinct but interconnected composite classes, each with unique compositions and design philosophies. The mechanical properties of these composites are vital in advanced materials due to their impacts on performance, durability, and suitability for various applications. The addition of ionic liquids into these composites is a promising innovation in advanced materials. In this short review, various polymer matrices (e.g., thermosets, thermoplastics, and biopolymers), fillers (e.g., inorganic, carbon, organic, and metal), and ionic liquids (e.g., imidazolium- and phosphonium-based) used to fabricate polymer hybrid composites and hybrid polymer composites with added ionic liquids are identified. Furthermore, the addition of ionic liquids into these composites through different methods (e.g., magnetic stirring, mechanical stirring, solid grinding, etc.) is discussed. The influence of ionic liquid addition on the mechanical properties, specifically the tensile properties of these composites, is also shortly reviewed. The changes in the tensile properties, such as the tensile strength, tensile modulus, and elongation at break, of these composites are explained as well. The information presented in this review enhances the understanding of the methods applied to add ionic liquids into polymer hybrid composites and hybrid polymer composites, along with their tensile properties. In short, some ionic liquids have the capacity to enhance the tensile properties of hybrid polymer composites, and several ionic liquids can reduce the tensile properties of polymer hybrid composites. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Utilization of ionic liquids as compatibilizing agents for polymer blends-preparations and properties

Author

Shamsuri, Ahmad Adlie, Abdan, Khalina, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, Abdan, Khalina, and Md. Jamil, Siti Nurul Ain

Abstract

Recently, ionic liquids have been utilized to compatibilize polymer blends. In this brief review, two types of ionic liquids utilized as compatibilizing agents for polymer blends are described, namely imidazolium-based and phosphonium-based ionic liquids. Additionally, the preparation of polymer blends with different processes is presented. The effects of ionic liquids as compatibilizing agents on the chemical, mechanical, and thermal properties of polymer blends are also briefly reviewed. The information presented in this review contributes to a better understanding of the preparation of polymer blends compatibilized with ionic liquids and the crucial properties of polymer blends.

Published
2023

16. Preparations and properties of ionic liquid-assisted electrospun biodegradable polymer fibers

Author

Shamsuri, Ahmad Adlie, Abdan, Khalina, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, Abdan, Khalina, and Md. Jamil, Siti Nurul Ain

Abstract

Enhanced awareness of the environment and environmental conservation has inspired researchers to search for replacements for the use of volatile organic compounds in the processing of polymers. Recently, ionic liquids have been utilized as solvents for solvating natural and synthetic biodegradable polymers since they are non-volatile, recyclable, and non-flammable. They have also been utilized to prepare electrospun fibers from biodegradable polymers. In this concise review, examples of natural and synthetic biodegradable polymers that are generally employed as materials for the preparation of electrospun fibers are shown. In addition, examples of ionic liquids that are utilized in the electrospinning of biodegradable polymers are also displayed. Furthermore, the preparations of biodegradable polymer electrospinning solutions utilizing ionic liquids are demonstrated. Additionally, the properties of electrospun biodegradable polymer fibers assisted by different ionic liquids are also concisely reviewed. Besides this, the information acquired from this review provides a much deeper understanding of the preparation of electrospinning solutions and the essential properties of electrospun biodegradable polymer fibers. In summary, this concise review discovered that different functions (solvent or additive) of ionic liquids could provide distinct properties to electrospun fibers.

Published
2022

17. The influence of ionic liquid pretreatment on the physicomechanical properties of polymer biocomposites: a mini-review

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Abdan, Khalina, Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, and Abdan, Khalina

Abstract

Increasing concern for the environment has led researchers to pay more attention to the fabrication of polymer biocomposites for many different applications. Polymer biocomposites have generally been fabricated utilizing synthetic or natural polymers with natural fillers. Recently, ionic liquids have been used for the pretreatment of natural fillers prior to the fabrication of polymer biocomposites. In this mini-review, four types of ionic liquids used for the pretreatment of natural filler are classified, specifically chloride-, diethyl phosphate-, acetate-, and bistriflimide-based ionic liquids. In addition, the pretreatment processes of natural fillers with ionic liquids are described in this review. Furthermore, the influence of ionic liquid pretreatment on the physicomechanical properties of polymer biocomposites is succinctly reviewed. Besides, the information presented in this review contributes to a clearer understanding of the process of ionic liquid pretreatment and the vital physicomechanical properties of polymer biocomposites. In summary, most ionic liquid pretreatments can improve almost all physicomechanical properties of polymer biocomposites.

Published
2022

18. Nanocellulose extraction using ionic liquids: syntheses, processes, and properties

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Abdan, Khalina, Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, and Abdan, Khalina

Abstract

Increased environmental awareness has encouraged researchers to seek alternatives to replace the use of hazardous chemicals in the extraction of nanocellulose for environmental conservation. Lately, ionic liquids have been used as a medium for processing cellulose and other biopolymers because they are recyclable and reusable. Recently, ionic liquids have been used to extract nanocellulose for a variety of applications. In this short review, examples of ionic liquids that are usually used for the extraction of nanocellulose are demonstrated. Additionally, sources of cellulose that are employed as raw materials for nanocellulose have also been shown. Moreover, the synthesis of ionic liquids and the process of nanocellulose extraction using ionic liquids are exhibited in this paper. In addition, the properties of nanocellulose extracted by different ionic liquids were also shortly reviewed. On top of that, the knowledge gained from this review provides a clearer comprehension of the process of nanocellulose extraction and the important properties of the extracted nanocellulose. In conclusion, this short review revealed that different mechanisms of nanocellulose extraction using ionic liquids give distinct properties to the extracted nanocellulose.

Published
2022

23. The Effect of Imidazolium-Based Ionic Liquids on the Tensile Properties of Gellan Gum/KCF Biocomposite Films - A Prelude Study

Author

Shamsuri, Ahmad Adlie

Abstract

In this prelude study, the gellan gum/kenaf core fiber (KCF) biocomposite films were fabricated with the addition of imidazolium-based ionic liquids such as 1-butyl-3-methylimidazolium chloride (Bmim Cl), 1,3-dimethylimidazolium methylsulphate (Dmim MeSO4), 1-ethyl-3-methylimidazolium acetate (Emim Ac), and 1-ethyl-3-methylimidazolium trifluoromethanesulfonate (Emim OTf). The fabrication of the biocomposite films was carried out by mixing KCF and the ionic liquids in an aqueous solution, followed by dissolution of gellan gum in the same solution at a temperature of 90°C. The mixed solution was gelled at room temperature, and the formed gel was dried in an oven at 40°C for 48 hours to obtain a freestanding biocomposite film. The fabricated films were characterized by using a universal testing machine to acquire tensile properties. The tensile test results indicated that the biocomposite film added with Emim Ac possesses a higher tensile extension at maximum (up to 24%) than the biocomposite film without ionic liquid (added with glycerol). In addition, thebiocomposite film added with Emim OTf has a higher tensile modulus at maximum (up to 758%) compared to the biocomposite film without ionic liquid. In conclusion, the tensile properties of the gellan gum/KCF biocomposite films can be improved with the addition of Emim-based ionic liquids with different counter anions.

Published
2021
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24. Application of quaternary ammonium compounds as compatibilizers for polymer blends and polymer composites—a concise review

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, and Md. Jamil, Siti Nurul Ain

Abstract

A wide variety of quaternary ammonium compounds (QACs) have escalated the attraction of researchers to explore the application of QACs. The compounds have frequently been synthesized through alkylation or quaternization of tertiary amines with alkyl halides. Recently, QACs have been applied to compatibilize polymer blends and polymer composites in improving their thermo-mechanical properties. This concise review concentrates on the application of two types of QACs as compatibilizers for polymer blends and polymer composites. The types of QACs that were effectively applied in the blends and composites are quaternary ammonium surfactants (QASs) and quaternary ammonium ionic liquids (QAILs). They have been chosen for the discussion because of their unique chemical structure which can interact with the polymer blend and composite components. The influence of QASs and QAILs on the thermo-mechanical properties of the polymer blends and polymer composites is also described. This review could be helpful for the polymer blend and polymer composite researchers and induce more novel ideas in this research area.

Published
2021

25. A succinct review on the PVDF/Imidazolium-based ionic liquid blends and composites: Preparations, properties, and applications

Author

Shamsuri, Ahmad Adlie, Daik, Rusli, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, Daik, Rusli, and Md. Jamil, Siti Nurul Ain

Abstract

Poly(vinylidene fluoride) (PVDF) is a versatile thermoplastic fluoropolymer with intriguing characteristics, which is receiving considerable attention from researchers in many areas. Recently, PVDF and its copolymer, such as poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) have been blended with ionic liquids to produce blend and composite materials for target applications. In this succinct review, two types of ionic liquids that are utilized for the preparation of PVDF and PVDF-HFP blends and composites, namely, hydrophilic and hydrophobic imidazolium-based ionic liquids, are reviewed. In addition, the effect of the ionic liquids on the physicochemical properties of the PVDF and PVDF-HFP blends and composites, is described as well. On top of that, a multitude of applications of the blends and composites are also succinctly reviewed. This review may give inspirations to the polymer blend and composite researchers in diversifying the applications of thermoplastic fluoropolymers through the utilization of ionic liquids.

Published
2021

26. A prelude study on influence of hydrophobic ionic liquid on tensile and impact properties of HDPE/KCF biocomposites

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Abdan, Khalina, Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, and Abdan, Khalina

Abstract

In this prelude study, the high-density polyethylene/kenaf core fiber (HDPE/KCF) biocomposites without and containing hydrophobic ionic liquid, namely 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([Emim][NTf2]), were prepared via melt mixing process. The process was carried out by using an internal mixer at 150°C with a rotor speed of 60 rpm. The prepared biocomposites were molded into sheets through compression molding technique at the same temperature. The molded biocomposites were cut into dumbbell and rectangular shapes for tensile and impact tests, respectively. The tensile and impact properties of the biocomposites were determined by using universal testing and impactor machines, correspondingly. The tensile test results indicated that the biocomposites containing [Emim][NTf2] had low tensile stress and tensile modulus. Nevertheless, the biocomposites possessed high tensile extension and impact strength compared to the biocomposite without [Emim][NTf2]. This study deduced that the presence of the hydrophobic ionic liquid like [Emim][NTf2] significantly influenced the tensile and impact properties of the HDPE/KCF biocomposites.

Published
2021

27. The Impact of organic salts on the tensile properties of polymer biocomposites

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Abdan, Khalina, Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, and Abdan, Khalina

Abstract

The tensile properties are the significant mechanical properties of composite materials. The properties consist of tensile stress, tensile modulus, and tensile extension data. The purpose of this short review is to discover the impact of different types of organic salts on the tensile properties of polymer biocomposites. First, organic salts such as surfactants and ionic liquids that are used in the preparation of polymer biocomposites were identified. Later, the percentages of increase and decrease of tensile properties of polymer biocomposites were calculated to observe the impact of organic salts. Finally, the change of tensile properties of polymer biocomposites was explained concisely. From the review, the use of organic salts can increase the tensile stress, tensile modulus, and tensile extension of polymer biocomposites by up to 136%, 758%, and 233%, respectively, compared to the polymer biocomposites without organic salts. Furthermore, organic salts can act as coupling agent, compatibilizing agent, and plasticizing agent for polymer biocomposites.

Published
2021

28. Effect of silver nanopowder on mechanical, thermal and antimicrobial properties of kenaf/HDPE composites

Author

Sanmuham, Vikneswari, Hameed Sultan, Mohamed Thariq, Ali, Mohd Radzi, Shamsuri, Ahmad Adlie, Md Shah, Ain Umaira, Safri, Syafiqah Nur Azrie, Basri, Adi Azriff, Sanmuham, Vikneswari, Hameed Sultan, Mohamed Thariq, Ali, Mohd Radzi, Shamsuri, Ahmad Adlie, Md Shah, Ain Umaira, Safri, Syafiqah Nur Azrie, and Basri, Adi Azriff

Abstract

This study aims to investigate the effect of AgNPs on the mechanical, thermal and antimicrobial activity of kenaf/HDPE composites. AgNP material was prepared at different contents, from 0, 2, 4, 6, 8 to 10 wt%, by an internal mixer and hot compression at a temperature of 150 °C. Mechanical (tensile, modulus and elongation at break), thermal (TGA and DSC) and antimicrobial tests were performed to analyze behavior and inhibitory effects. The obtained results indicate that the effect of AgNP content displays improved tensile and modulus properties, as well as thermal and antimicrobial properties. The highest tensile stress is 5.07 MPa and was obtained at 10wt, TGA showed 10 wt% and had improved thermal stability and DSC showed improved stability with increased AgNP content. The findings of this study show the potential of incorporating AgNP concentrations as a secondary substitute to improve the performance in terms of mechanical, thermal and antimicrobial properties without treatment. The addition of AgNP content in polymer composite can be used as a secondary filler to improve the properties.

Published
2021

33. Statistical Analysis of Tensile Strength and Flexural Strength Data from Universal Testing Machine

Author

Shamsuri, Ahmad Adlie

Abstract

The tensile strength and flexural strength are the most important mechanical properties as they provide the value of maximum tensile stress and flexural stress. The objective of this study is to analyze statistically the tensile strength and flexural strength data obtained from a universal testing machine. The tests were conducted upon a thermoplastic, specifically high-density polyethylene (HDPE), which was in- house molded by using an injection-molding machine. Three different persons have performed the tensile and flexural tests. Three other laboratories have also been involved in these tests. The relative standard deviation (RSD) values were calculated to express the precision and repeatability of the tests. Later, the standard score (z-score) values were also calculated to aid the comparison of the data. Finally, the single- factor analysis of variance (ANOVA) was employed to investigate statistically significant differences between the means of the tensile strength and flexural strength data of each person and laboratory. From the calculation, the RSD values of all three persons and laboratories were lower than 5%, indicating that the data were consistent. The z-score values of all three persons were within the range from -2 to 2,suggesting that the data were close to average. However, the z-score value for one of three laboratories was not within the range, demonstrating that the data was unusual. The P-values of all three persons were higher than 0.05 (except for flexural strength), implying that the difference between the means of the data was not statistically significant. Nevertheless, the P-values of all three laboratories were lower than 0.05, indicating that the difference between the means of the data was statistically significant.

Published
2020
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34. A Preliminary Study on Tensile Properties of Gellan Gum/KCF Biocomposite Films

Author

Shamsuri, Ahmad Adlie

Abstract

In this preliminary study, kenaf core fiber (KCF) was utilized as a natural filler for the preparation of the gellan gum/KCF biocomposite films. The films were prepared by casting gellan gum solutions containing glycerol and KCF, followed by gelation and drying. The weight ratio of gellan gum and glycerol was fixed at 2:3, while the content of KCF varied from 6 to 15 wt.% relative to the weight of gellan gum. The tensile properties of the prepared films have been determined by using a universal testing machine. The tensile test results demonstrated that the tensile extension and tensile energy at break of the biocomposite films have significantly increased with the incorporation of KCF. Nevertheless, the tensile stress and tensile modulus at maximum load have drastically decreased with the increase of KCF content. This study implied that the incorporation of KCF had enhanced the ductility of the gellan gum/KCF biocomposite films and at the same time, reduced the stiffness of the films.

Published
2020
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35. Effect of [C2mim][OTf] Ionic Liquid on Tensile Properties of HDPE/KCF Biocomposites: A Primary Research

Author

Shamsuri, Ahmad Adlie

Abstract

In this primary research, 1-ethyl-3-methylimidazolium trifluoromethanesulfonate ionic liquid ([C2mim][OTf]) was added to the high-density polyethylene/kenaf core fiber (HDPE/KCF) biocomposites by using an internal mixer at 150°C, followed by compression molding at the same temperature. The [C2mim][OTf] contents were varied from 0 to 10wt.%. The tensile properties of the prepared biocomposites have been determined by using a universal testing machine. The tensile results of the HDPE/KCF biocomposites indicated that the tensile strength and tensile modulus have decreased with the addition of [C2mim][OTf]. However, the presence of [C2mim][OTf] has significantly increased the tensile extension at break of the biocomposites. This research concluded that the addition of [C2mim][OTf] at the lower content (≈ 10wt.%) could act as a plasticizer for improving the flexibility of HDPE/KCF biocomposites.

Published
2020
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36. An Initial Investigation on Microwaves Reflection and Transmission Coefficients of Oil Palm Empty Fruit Bunch Biocomposites Incorporated with Nickel Zinc Ferrite

Author

Shamsuri, Ahmad Adlie

Abstract

In this initial investigation, oil palm empty fruit bunch (OPEFB) biocomposites incorporated with nickel zinc ferrite (NZFO) were prepared via heat blending technique followed by a compression molding technique, the percentages of NZFO were varied from 2.5 to 12.5%. All microwave measurements were carried out by means of Vector Network Analyzer (VNA) in the frequency ranges between 8 and 12 GHz. The attenuation measurement software was developed to retrieve data from VNA through a Visual Engineering Environment platform. The simulated and measured results showed that the biocomposites with a higher percentage of NZFO would have higher values of reflection coefficient and lower values of the transmission coefficient. On the contrary, the biocomposites with a lower percentage of NZFO have lower values of reflection coefficient and higher values of the transmission coefficient. In conclusion, the percentage of NZFO has significantly influenced the values of microwaves reflection and transmission coefficients of the OPEFB biocomposites.

Published
2020
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37. Functional properties of biopolymer-based films modified with surfactants: a brief review

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, and Md. Jamil, Siti Nurul Ain

Abstract

An increase of environmental awareness recently has increased the interest of researchers in using of biopolymer-based films. The films have been prepared extensively by utilizing starch, carboxymethyl cellulose, chitosan, protein, gelatin, carrageenan, alginate, pectin, guar gum and pullulan. They are typically modified with surface-active agents (surfactants) such as glycerol monostearate, sucrose ester, sodium stearoyl lactate, sodium dodecyl sulfate, ethyl lauroyl arginate HCl, Span 20 to 80, Tween-20 to 80 and soy lecithin for improving the functional properties of the films. In this brief review, two types of biopolymer-based films that prepared through casting method were categorized, specifically solution- and emulsion-based films. The four types of surfactants, namely non-ionic, anionic, cationic and amphoteric surfactants that are regularly used to modify biopolymer-based films are also described. The functional properties of the films modified with different types of surfactants are briefly reviewed. This study enhances the attraction of researchers in biopolymer-based films and the improvement of new concepts in this niche area.

Published
2020

38. Physicochemical and thermal properties of Lignocellulosic fiber from Gigantochloa Scortechinii bamboo: effect of steam explosion treatment

Author

Mat Darus, Siti Atiqa Al Zahra, Ghazali, Mariyam Jameelah, Azhari, Che Husna, Zulkifli, Rozli, Shamsuri, Ahmad Adlie, Sarac, Hanifi, Mustafa, Mohd Tamizi, Mat Darus, Siti Atiqa Al Zahra, Ghazali, Mariyam Jameelah, Azhari, Che Husna, Zulkifli, Rozli, Shamsuri, Ahmad Adlie, Sarac, Hanifi, and Mustafa, Mohd Tamizi

Abstract

Bamboo is an abundant natural resource in Asia and one of the high potential fibers used to reinforce polymer composites. This article presents a comparative study on the physicochemical and thermal properties of bamboo fiber (BF) from Gigantochloa scortechinii for untreated BF, steam explosion (SE) treatment BF, and steam explosion followed by alkali (SE-alkali) treatment BF. The physicochemical and thermal properties of BF were determined using energy dispersive X-ray (EDX) spectroscopy and thermogravimetric analysis (TGA), while scanning electron microscopy (SEM) was used to examine the surfaces morphologies. A Fourier transform infrared (FTIR) spectroscopy was utilized to detect the presence of functional groups. TGA results showed that SE BF was significantly more thermally stable than the untreated BF and SE-alkali treatment BF. Major changes in chemical composition and surface morphology of the bamboo fibers indicated that hemicellulose and lignin were removed by SE-alkali treatment. In conclusion, the BF surface is physically and chemically modified by the SE-alkali treatment.

Published
2020

39. A short review on the effect of surfactants on the mechanico-thermal properties of polymer nanocomposites

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, and Md. Jamil, Siti Nurul Ain

Abstract

The recent growth of nanotechnology consciousness has enhanced the attention of researchers on the utilization of polymer nanocomposites. Nanocomposite have widely been made by using synthetic, natural, biosynthetic, and synthetic biodegradable polymers with nanofillers. Nanofillers are normally modified with surfactants for increasing the mechanico-thermal properties of the nanocomposites. In this short review, two types of polymer nanocomposites modified by surfactants are classified, specifically surfactant-modified inorganic nanofiller/polymer nanocomposites and surfactant-modified organic nanofiller/polymer nanocomposites. Moreover, three types of surfactants, specifically non-ionic, anionic, and cationic surfactants that are frequently used to modify the nanofillers of polymer nanocomposites are also described. The effect of surfactants on mechanico-thermal properties of the nanocomposites is shortly reviewed. This review will capture the interest of polymer composite researchers and encourage the further enhancement of new theories in this research field.

Published
2020

40. Mechanical properties of Gigantochloa scortechinii bamboo particle reinforced semirigid polyvinyl chloride composites

Author

Mat Darus, Siti Atiqa Al Zahra, Ghazali, Mariyam Jameelah, Azhari, Che Husna, Zulkifli, Rozli, Shamsuri, Ahmad Adlie, Mat Darus, Siti Atiqa Al Zahra, Ghazali, Mariyam Jameelah, Azhari, Che Husna, Zulkifli, Rozli, and Shamsuri, Ahmad Adlie

Abstract

This investigation aims to study the mechanical properties of the bamboo particle (BP) (Gigantochloa scortechinii) reinforced with semirigid Polyvinyl Chloride (PVC) composites before and after the steam explosion (SE)-alkali treatment. Mechanical properties, namely, tensile, flexural and impact strengths, were determined using universal tensile and impact testing machines according to ASTM standard. The tensile and flexural strengths of the composites were improved after SE-alkali treatment. Results indicated that the tensile and flexural strengths of the composites increased and reached the optimum values of 17.42 and 11.86 MPa, respectively for SE-alkali treatment BP reinforced semirigid PVC with 40 wt% particle content. The impact strength of SE-alkali-treated composites was unimproved due to less dense and rigid particle.

Published
2020

41. Mechanical and thermal properties of Nylon-6/LNR/MMT nanocomposites prepared through emulsion dispersion technique

Author

Shamsuri, Ahmad Adlie, Daik, Rusli, Shamsuri, Ahmad Adlie, and Daik, Rusli

Abstract

In this research, nylon-6/liquid natural rubber/montmorillonite (nylon-6/LNR/MMT) nanocomposites were prepared through emulsion dispersion technique with contents of MMT from 2 to 10 wt.%. The mechanical, crystallographical, morphological, and thermal properties of the prepared nanocomposites were then characterised by using mechanical testers, XRD, TEM, DSC, and TGA. The mechanical test results showed that the tensile stress, tensile modulus, and impact strength of the nanocomposites improved with the incorporation of MMT. The XRD results displayed that there are no isotropic peaks were observed in the nanocomposites with 2, 4, and 6 wt.% of MMT. The TEM micrographs exhibited that the exfoliated state was achieved in the nanocomposites with less than 8 wt.% of MMT. The DSC and TGA results also indicated that the incorporation of MMT had increased the glass transition temperatures and degradation temperatures of the nanocomposites. In conclusion, the emulsion dispersion technique could prepare the nylon-6/LNR/MMT nanocomposites with improved mechanical and thermal properties.

Published
2020

42. Compatibilization effect of ionic liquid-based surfactants on physicochemical properties of PBS/rice starch blends: an initial study

Author

Shamsuri, Ahmad Adlie, Md. Jamil, Siti Nurul Ain, Shamsuri, Ahmad Adlie, and Md. Jamil, Siti Nurul Ain

Abstract

Polybutylene succinate (PBS)/rice starch (RS) blends were prepared via the hot-melt extrusion technique through the usage of a twin-screw extruder without and containing ionic liquid-based surfactants (ILbS). Two types of ILbS were used, specifically, 1-dodecyl-3-methylimidazolium trifluoromethanesulfonate, [C12mim][OTf] and 1-dodecyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide, [C12mim][NTf2] were mixed into the PBS/RS blends at the different contents (0–8 wt.%). The tensile and flexural results showed that the blends containing ILbS have a high tensile extension and tensile energy compared to the blend without ILbS. The blends containing ILbS also have a high flexural extension compared with the blend without ILbS. The blends containing [C12mim][NTf2] have a significant improvement in the tensile energy (up to 239%) and flexural extension (up to 17%) in comparison with the blends containing [C12mim][OTf]. The FTIR spectra demonstrated that the presence of ILbS in the blends generated the intermolecular interactions (ion-dipole force and hydrophobic-hydrophobic interaction) between PBS and RS. The DSC results exhibited that the melting points of the prepared blends are decreased with the addition of ILbS. However, the TGA results showed that the thermal decomposition of the blends containing ILbS are higher than the blend without ILbS. The values of decomposition temperature were 387.4 °C, 381.8 °C, and 378.6 °C of PBS/RS-[C12mim][NTf2], PBS/RS-[C12mim][OTf], and PBS/RS, respectively. In conclusion, the ILbS could significantly improve the physicochemical properties of the PBS/RS blends by acting as a compatibilizer.

Published
2020

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