Dr. Rudi  Dungani
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Dr. Rudi Dungani

Lecturer
Institut Teknologi Bandung, Indonesia


Highest Degree
Ph.D. in Industrial Technology from Universiti Sains Malaysia, Malaysia

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Biography

Dr. Rudi Dungani is currently working as Lecturer of School of Life Sciences and Technologi, Institut Teknologi Bandung. He obtained his Ph.D. in Industrial Technology from Universiti Sains Malaysia, Malaysia. He has published 4 book chapters as well as 22 research articles in journals as author/co-author.

Area of Interest:

Physical Science Engineering
100%
Microcrystalline Celullose
62%
Chemical Modification
90%
Mechanical Properties
75%
Wood Anatomical
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Sri Aprilia, N.A., M.S.N. Atiqah, Z. Ismail, C.Y. Loo and C.K. Saurabh et al., 2017. Supercritical Carbon Dioxide Trated Kenaf Bast Pulp Fiber Reinforcement Epoxy Composite. J. Renewable Mater., 5: 1-8.
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  2. Abdul Khalil, H.P.S., Y.Y. Tye, S.T. Chow, C.K. Saurabh, M.T. Paridah, R. Dungani and M.I. Syakir, 2017. Cellulosic Pulp Fiber as Reinforcement Materials in Seaweed-Based Film. BioResoour., 12: 29-42.
    Direct Link  |  
  3. Abdul Khalil, H.P.S., M. Masri, C. Saurabh, M.R.N. Fazita and A. Azniwati et al., 2017. Incorporation of coconut shell based nanoparticles in kenaf/coconut fibres reinforced vinyl ester composites. Mater. Res. Express, .
    Direct Link  |  
  4. Saurabh, C.K., R. Dungani, A.F. Owolabi, N.S. Atiqah and A. Zaidon et al., 2016. Effect of Hydrolysis Treatment on Cellulose Nanowhiskers from Oil Palm (Elaeis guineesis) Fronds: Morphology, Chemical, Crystallinity, and Thermal Characteristics. BioResour., 11: 6742-6755.
    CrossRef  |  Direct Link  |  
  5. Saurabh, C.K., A. Mustapha, M.M. Masri, A.F. Owolabi and M.I. Syakir, et al., 2016. Isolation and characterization of cellulose nanofibers from gigantochloa scortechinii as a reinforcement material. J. Nanomater. 10.1155/2016/4024527.
    CrossRef  |  Direct Link  |  
  6. Rosamah, E., M.S. Hossain, H.P.S.A. Khalil, W.O. Wan Nadirah and R. Dungani et al., 2016. Properties enhancement using oil palm shell nanoparticles of fibers reinforced polyester hybrid composites. Adv. Compos. Mater., 10.1080/09243046.2016.1145875.
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  7. Dungani, R., M. Karina, A.S. Subyakto, D. Hermawan and A. Hadiyane, 2016. Agricultural Waste Fibers Towards Sustainability and Advanced Utilization: A Review. Asian J. Plant Sci., 15: 42-55.
  8. Dungani, R., H.P.S. Abdul Khalil, M.N. Islam, I. Sumardi, P. Aditiawati and A. Hadiyane, 2016. Soil Burial Degradation of Oil Palm Shell (OPS) Nanofiller and Phenol Formaldehyde (PF) Resin-Impregnated Oil Palm Trunk Lumber (OPTL): Dimensional Stability and Mechanical Properties. J. Biobased Mater. Bioenergy, 10: 258-264.
    CrossRef  |  Direct Link  |  
  9. Dungani, R., A.F. Owolabi, C.K. Saurabh, H.P.S.A. Khalil, P.M. Tahir et al., 2016. Preparation and Fundamental Characterization of Cellulose Nanocrystal from Oil Palm Fronds Biomass. J. Polym. Environ., 10.1007/s10924-016-0854-8.
    CrossRef  |  Direct Link  |  
  10. Dungani, R., A. Sulaeman, N. Islam, H.P.S. Abdul Khalil, I. Sumardi, D. Hermawan and A. Hadiyane, 2016. Preliminary Study of Characterization of Nanoparticles from Coconut Shell as Filler Agent in Composites Materials. MAYFEB J. Mater. Sci., 1: 1-9.
    Direct Link  |  
  11. Aprilia, N.A.S., Y. Davoudpour, W. Zulgarnain, H.P.S. Abdul Khalil and C.I.C.M. Hazwan et al., 2016. Physicochemical Characterization of Microcrystalline Celullose Extracted from Kenaf Bast. BioResour., 11: 3875-3889.
    Direct Link  |  
  12. Abdul Khalil, H.P.S., Y. Davoudpour, C.K. Saurabh, M.S. Hossain and A.S. Adnan et al., 2016. A Review on Nanocellulosic Fibres as New Material for Sustainable Packaging: Process and Applications. Renewable Sustainable Energy Rev., 64: 823-836.
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  13. Abdul Khalil, H.P.S., M.S. Hossain, A.S.N. Amiranajwa, M.R.N. Fazita and M.K.M. Haafiz et al., 2016. Production and characterization of the defatted oil palm shell nanoparticles. Sains Malaysiana, 45: 833-839.
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  14. Abdul Khalil, H.P.S., C.K. Saurabh, A.S. Adnan, M.R. Nurul Fazita and M.I. Syakir et al., 2016. A Review on Chitosan-Cellulose Blends and Nanocellulose Reinforced Chitosan Biocomposites: Properties and their Applications. Carbohydr. Polym., 150: 216-226.
    CrossRef  |  Direct Link  |  
  15. Ireana Yusra, A.F.I., H.P.S. Abdul Khalil, M.S. Hossain, Y. Davoudpour and A.A. Astimar et al., 2015. Characterization of plant nanofiber-reinforced epoxy composites. BioResour., 10: 8268-8280.
    Direct Link  |  
  16. Dungani, R., M.N. Islam, H.P.S. Abdul Khalil, N.L. Suraya and N.A. Aprilia et al., 2015. Mechanical Properties of Oil Palm Biocomposite Enhanced with Micro to Nano Biofiller. In: Biocomposites: Design and Mechanical Performance, Misra, M., J.K. Pandey and A.K. Mohanty (Eds.). Woodhead Publishing, Cambridge, UK., ISBN-13: 9781782423942.
  17. Aprilia, N.S., M.S. Hossain, C.K. Abdullah, H.P.S. Abdul Khalil and E. Rosamah et al., 2015. Environmental durability of vinyl ester composites filled with carbonized Jatropha seed shell. BioResources, 10: 2350-2359.
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  18. Alwani, M.S., H.P.S. Abdul Khalil, M.N. Islam, O. Sulaiman, A. Zaidon and R. Dungani, 2015. Microstructural study, tensile properties, and scanning electron microscopy fractography failure analysis of various agricultural residue fibers. J. Nat. Fibers, 12: 154-168.
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  19. Abdul Khalil, H.P.S., M.S. Hossain, E. Rosamah, N.A. Azli and N. Saddon et al., 2015. The role of soil properties and it's interaction towards quality plant fiber: A review. Renew. Sustain. Energy Rev., 43: 1006-1015.
    CrossRef  |  Direct Link  |  
  20. Sasthiryar, S., H.P.S. Abdul Khalil, Z.A. Ahmad, M.N. Islam, R. Dungani and H.M. Fizree, 2014. Carbon nanofiller-enhanced ceramic composites: Thermal and electrical studies. BioResources, 9: 3143-3151.
    Direct Link  |  
  21. Fatah, I.Y.A., H.P.S. Abdul Khalil, M.S. Hossain, A.A. Aziz, Y. Davoudpour, R. Dungani and A. Bhat, 2014. Exploration of a chemo-mechanical technique for the isolation of nanofibrillated cellulosic fiber from oil palm empty fruit bunch as a reinforcing agent in composites materials. Polymers, 6: 2611-2624.
    CrossRef  |  Direct Link  |  
  22. Dungani, R., H.P.S. Abdul Khalil, I. Sumardi, Y. Suhaya and E. Sulistyawati et al., 2014. Non-Wood Renewable Materials: Properties Improvement and its Application. In: Biomass and Bioenergy: Applications, Hakeem, K.R., M. Jawaid and U. Rashid (Eds.). Chapter 1, Springer, USA., ISBN: 978-3-319-07577-8, pp: 1-29.
    Direct Link  |  
  23. Aprilia, N.S., H.P.S. Abdul Khalil, A.H. Bhat, R. Dungani and M.S. Hossain, 2014. Exploring material properties of vinyl ester biocomposites filled carbonized Jatropha seed shell. BioResources, 9: 4888-4898.
    Direct Link  |  
  24. Alwani, M.S., H.P.S. Abdul Khalil, M.N. Islam, W.O. Wan Nadirah and R. Dungani, 2014. Fundamental approaches for the application of pineapple leaf fiber in high performance reinforced composites. Polimery, 59: 38-44.
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  25. Alwani, M.S., H.P.S. Abdul Khalil, M.N. Islam, S.S. Suhaily, R. Dungani and Y.M. H'ng, 2014. The Use of Bamboo Fibres as Reinforcements in Composites. In: Biofiber Reinforcement in Composite Materials, Faruk, O. and M. Sain (Eds.). Chapter 16, Woodhead Publishing, Cambridge, UK., ISBN-13-13: 9781782421221, pp: 488-524.
  26. Abdul Khalil, H.P.S., Y. Davoudpour, N.A.S. Aprilia, A. Mustapha, M.N. Islam and R. Dungani, 2014. Nanocellulose-based Polymer Nanocomposite: Isolation, Characterization and Applications. In: Nanocellulose Polymer Nanocomposites: Fundamentals and Applications, Thakur V.K. (Ed.). Chapter 11, John Wiley and Sons Inc., USA., ISBN-13: 9781118871904, pp: 273-309.
  27. Abdul Khalil, H.P.S., Y. Davoudpour, M.N. Islam, A. Mustapha, K. Sudesh, R. Dungani and M. Jawaid, 2014. Production and modification of nanofibrillated cellulose using various mechanical processes: A review. Carbohydr. Polym., 99: 649-665.
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  28. Abdul Khalil, H.P.S., R. Dungani, I.A. Mohammed, M.S. Hossain, N.S. Aprilia, E. Budiarso and E. Rosamah, 2014. Determination of the combined effect of chemical modification and compression of agatis wood on the dimensional stability, termite resistance and morphological structure. BioResources, 9: 6614-6626.
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  29. Sasthiryar, S., H.P.S. Abdul Khalil, A.H. Bhat, Z.A. Ahmad, M.N. Islam, A. Zaidon and R. Dungani, 2013. Nanobioceramic composites: A study of mechanical, morphological and thermal properties. BioResources, 9: 861-871.
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  30. Rahman, K.S., M.N. Islam, M.M. Rahman, M.O. Hannan, R. Dungani and H.P.S. Abdul Khalil, 2013. Flat-pressed wood plastic composites from sawdust and recycled Polyethylene Terephthalate (PET): Physical and mechanical properties. SpringerPlus, Vol. 2. 10.1186/2193-1801-2-629.
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  31. Jawaid, M., H.P.S. Abdul Khalil, A. Hassan, R. Dungani and A. Hadiyane, 2013. Effect of jute fibre loading on tensile and dynamic mechanical properties of oil palm epoxy composites. Compos. Part B: Eng., 45: 619-624.
    CrossRef  |  Direct Link  |  
  32. Jawaid, M., H.A. Khalil, A. Abu Bakar, A. Hassan and R. Dungani, 2013. Effect of jute fibre loading on the mechanical and thermal properties of oil palm-epoxy composites. J. Compos. Mater., 47: 1633-1641.
    CrossRef  |  Direct Link  |  
  33. Islam, M.N., R. Dungani, H.P.S. Abdul Khalil, M.S. Alwani, W.W. Nadirah and H.M. Fizree, 2013. Natural weathering studies of Oil Palm Trunk Lumber (OPTL) green polymer composites enhanced with Oil Palm Shell (OPS) nanoparticles. SpringerPlus, Vol. 2. 10.1186/2193-1801-2-592.
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  34. Dungani, R., M.N. Islam, H.P.S. Abdul Khalil, Y. Davoudpour and A. Rumidatul, 2013. Modification of the inner part of the Oil Palm Trunk (OPT) with Oil Palm Shell (OPS) nanoparticles and Phenol Formaldehyde (PF) resin: Physical, mechanical and thermal properties. BioResources, 9: 455-471.
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  35. Dungani, R., M.N. Islam, H.P.S. Abdul Khalil, S. Hartati, C.K. Abdullah, M. Dewi and A. Hadiyane, 2013. Termite resistance study of Oil Palm Trunk Lumber (OPTL) impregnated with oil palm shell meal and phenol-formaldehyde resin. BioResources, 8: 4937-4950.
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  36. Dungani, R., M. Jawaid, H.P.S. Abdul Khalil, J. Jasni and S. Aprilia et al., 2013. A review on quality enhancement of oil palm trunk waste by resin impregnation: Future materials. BioResources, 8: 3136-3156.
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  37. Alwani, M.S., H.P.S. Abdul Khalil, O. Sulaiman, M.N. Islam and R. Dungani, 2013. An approach to using agricultural waste fibres in biocomposites application: Thermogravimetric analysis and activation energy study. BioResources, 9: 218-230.
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  38. Abdul Khalil, H.P.S., N.A.S. Aprilia, A.H. Bhat, M. Jawaid, M.T. Paridah and D. Rudi, 2013. A Jatropha biomass as renewable materials for biocomposites and its applications. Renew. Sustain. Energy Rev., 22: 667-685.
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  39. Dungani, R., H.P.S. Abdul Khalil, A. Naif and D. Hermawan, 2012. Evaluation of antitermitic activity of different extracts obtained from Indonesian teakwood (Tectona grandis Lf). BioResources, 7: 1452-1461.
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  40. Abdul Khalil, H.P.S., P. Amouzgar, M. Jawaid, A. Hassan, F. Ahmad, A. Hadiyana and R. Dungani, 2012. New approach to oil palm trunk core lumber material properties enhancement via resin impregnation. J. Biobased Mater. Bioenergy, 6: 299-308.
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  41. Abdul Khalil, H.P.S., A.R. Rus Mahayuni, I.H. Bhat, D. Rudi, M.Z. Almulali and C.K. Abdullah, 2012. Characterization of various organic waste nanofillers obtained from oil palm ash. BioResources, 7: 5771-5780.
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