Your search keyword '"Harmaen Ahmad Saffian"' showing total 5 results

1. Thermal, Physical and Mechanical Properties of Poly(Butylene Succinate)/Kenaf Core Fibers Composites Reinforced with Esterified Lignin

Author

Ching Hao Lee, Harmaen Ahmad Saffian, Khalina Abdan, Seng Hua Lee, Aisyah Humairah Alias, Masayuki Yamaguchi, Hidayah Ariffin, Ayu Rafiqah Shafi, and Nur Kartinee Kassim

Subjects

Absorption of water, Materials science, kenaf core fibers, Polymers and Plastics, lignin, Organic chemistry, 02 engineering and technology, thermal behavior, mechanical properties, 010402 general chemistry, 01 natural sciences, Article, chemistry.chemical_compound, QD241-441, Flexural strength, Ultimate tensile strength, Lignin, thermal conductivity, poly (butylene succinate), Composite material, biology, Izod impact strength test, General Chemistry, Dynamic mechanical analysis, 021001 nanoscience & nanotechnology, biology.organism_classification, Kenaf, 0104 chemical sciences, Polybutylene succinate, chemistry, phthalic anhydride, 0210 nano-technology

Abstract

In this study, Kraft lignin was esterified with phthalic anhydride and was served as reinforcing filler for poly(butylene succinate) (PBS). Composites with different ratios of PBS, lignin (L), modified lignin (ML) and kenaf core fibers (KCF) were fabricated using a compounding method. The fabricated PBS composites and its counterparts were tested for thermal, physical and mechanical properties. Weight percent gain of 4.5% after lignin modification and the FTIR spectra has confirmed the occurrence of an esterification reaction. Better thermo-mechanical properties were observed in the PBS composites reinforced with modified lignin and KCF, as higher storage modulus and loss modulus were recorded using dynamic mechanical analysis. The density of the composites fabricated ranged from 1.26 to 1.43 g/cm3. Water absorption of the composites with the addition of modified lignin is higher than that of composites with unmodified lignin. Pure PBS exhibited the highest tensile strength of 18.62 MPa. Incorporation of lignin and KCF into PBS resulted in different extents of reduction in tensile strength (15.78 to 18.60 MPa). However, PBS composite reinforced with modified lignin exhibited better tensile and flexural strength compared to its unmodified lignin counterpart. PBS composite reinforced with 30 wt% ML and 20 wt% KCF had the highest Izod impact, as fibers could diverge the cracking propagation of the matrix. The thermal conductivity value of the composites ranged from 0.0903 to 0.0983 W/mK, showing great potential as a heat insulator.

Published

2021

2. A Review on Properties and Application of Bio-Based Poly(Butylene Succinate)

Author

Rafiqah, S. Ayu, primary, Khalina, Abdan, additional, Harmaen, Ahmad Saffian, additional, Tawakkal, Intan Amin, additional, Zaman, Khairul, additional, Asim, M., additional, Nurrazi, M.N., additional, and Lee, Ching Hao, additional

Published

2021

3. Mechanical Strength, Thermal Conductivity and Electrical Breakdown of Kenaf Core Fiber/Lignin/Polypropylene Biocomposite

Author

Paridah Md. Tahir, Mohd Aizam Talib, Ching Hao Lee, Hidayah Ariffin, Ainun Zuriyati Mohamed Asa’ari, Seng Hua Lee, and Harmaen Ahmad Saffian

Subjects

Materials science, kenaf core fibers, Polymers and Plastics, Composite number, lignin, 02 engineering and technology, 010402 general chemistry, Thermal diffusivity, 01 natural sciences, Article, lcsh:QD241-441, chemistry.chemical_compound, lcsh:Organic chemistry, Flexural strength, Ultimate tensile strength, Thermal stability, thermal conductivity, Composite material, Polypropylene, biology, General Chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, Kenaf, 0104 chemical sciences, chemistry, electrical breakdown, Biocomposite, 0210 nano-technology, polypropylene

Abstract

Mechanical strength, thermal conductivity and electrical breakdown of polypropylene/lignin/kenaf core fiber (PP/L/KCF) composite were studied. PP/L, PP/KCF and PP/L/KCF composites with different fiber and lignin loading was prepared using a compounding process. Pure PP was served as control. The results revealed that tensile and flexural properties of the PP/L/KCF was retained after addition of lignin and kenaf core fibers. Thermal stability of the PP composites improved compared to pure PP polymer. As for thermal conductivity, no significant difference was observed between PP composites and pure PP. However, PP/L/KCF composite has higher thermal diffusivity. All the PP composites produced are good insulating materials that are suitable for building. All PP composites passed withstand voltage test in air and oil state as stipulated in IEC 60641-3 except PP/L in oil state. SEM micrograph showed that better interaction and adhesion between polymer matrix, lignin and kenaf core fibers was observed and reflected on the better tensile strength recorded in PP/L/KCF composite. This study has successfully filled the gap of knowledge on using lignin and kenaf fibers as PP insulator composite materials. Therefore, it can be concluded that PP/Lignin/KCF has high potential as an insulating material.

Published

2020

4. Characterization Study of Empty Fruit Bunch (EFB) Fibers Reinforcement in Poly(Butylene) Succinate (PBS)/Starch/Glycerol Composite Sheet

Author

Ayu, Rafiqah S., primary, Khalina, Abdan, additional, Harmaen, Ahmad Saffian, additional, Zaman, Khairul, additional, Isma, Tawakkal, additional, Liu, Qiuyun, additional, Ilyas, R. A., additional, and Lee, Ching Hao, additional

Published

2020

5. Effect of Modified Tapioca Starch on Mechanical, Thermal, and Morphological Properties of PBS Blends for Food Packaging.

Author

Ayu RS, Khalina A, Harmaen AS, Zaman K, Jawaid M, and Lee CH

Abstract

In this study, polybutylene succinate (PBS) was blended with five types of modified tapioca starch to investigate the effect of modified tapioca starch in PBS blends for food packaging by identifying its properties. Tensile and flexural properties of blends found deteriorated for insertion of starch. This is due to poor interface, higher void contents and hydrolytic degradation of hydrophilic starch. FTIR results show all starch/PBS blends are found with footprints of starch except OH stretching vibration which is absent in B40 blends. Besides, Broad O⁻H absorption in all specimens show that these are hydrogen bonded molecules and no free O⁻H bonding was found. SEM testing shows good interfacial bonding between PBS and starch except E40 blends. Therefore, poor results of E40 blends was expected. In TGA, a slightly weight loss found between 80 to 100 °C due to free water removal. Apart from this, insertion of all types of starch reduces thermal stability of blend. However, high crystallinity of starch/PBS blend observed better thermal stability but lower char yield. Starch A and B blends are suggested to be used as food wrap and food container materials while starch D blend is suitable for grocery plastic bags according to observed results.

Published

2018