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| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Jarnthong, M., Wannalak, A., Masa, A., Thongnuanchan, B., Saito, H., Soontaranon, S., Sakai, T. and Lopattananon, N. (2025). Nanocellulose reinforcement of epoxidized natural rubber: Enhancing strain-induced crystallization for high-performance bio-composites. POLYMER COMPOSITES Cited: 0 doi: https://doi.org/10.1002/pc.29594 | ||
| 2 | Bunsanong, A., Thongnuanchan, B., Ninjan, R., Salaeh, S., Lopattananon, N. and Masa, A. (2024). Accelerator and zinc-free prevulcanized latex based on natural rubber-bearing benzyl chloride groups. EXPRESS POLYMER LETTERS, 18(2), 229-242. Cited: 6 doi: https://doi.org/10.3144/expresspolymlett.2024.16 | ||
| 3 | Ninjan, R., Thongnuanchan, B., Lopattananon, N., Salaeh, S., Tongnuanchan, P. and Buangam, P. (2024). Heat-sealable paper fabricated using a latex coating based on modified natural rubber filled with gelatin. EXPRESS POLYMER LETTERS, 18(11), 1077-1093. Cited: 0 doi: https://doi.org/10.3144/expresspolymlett.2024.83 | ||
| 4 | Ninjan, R., Thongnuanchan, B., Lopattananon, N., Salaeh, S. and Thitithammawong, A. (2024). Thermally assisted healable film based on modified natural rubber-bearing benzyl chloride functionality. EXPRESS POLYMER LETTERS, 18(7), 742-759. Cited: 1 doi: https://doi.org/10.3144/expresspolymlett.2024.55 | ||
| 5 | Wongvasana, B., Thongnuanchan, B., Masa, A., Saito, H., Sakai, T. and Lopattananon, N. (2023). Reinforcement Behavior of Chemically Unmodified Cellulose Nanofiber in Natural Rubber Nanocomposites. POLYMERS, 15(5) Cited: 17 doi: https://doi.org/10.3390/polym15051274 | ||
| 6 | Wongvasana, B., Thongnuanchan, B., Masa, A., Saito, H., Sakai, T. and Lopattananon, N. (2023). Structure-Property Correlation in Natural Rubber Nanocomposite Foams: A Comparison between Nanoclay and Cellulose Nanofiber Used as Nanofillers. POLYMERS, 15(21) Cited: 1 doi: https://doi.org/10.3390/polym15214223 | ||
| 7 | Salaeh, S., Thongnuanchan, B., Bueraheng, Y., Das, A., Kaus, NHM. and Wiessner, S. (2023). The utilization of glycerol and xylitol in bio-based vitrimer-like elastomer: Toward more environmentally friendly recyclable and thermally healable crosslinked rubber. EUROPEAN POLYMER JOURNAL, 198 Cited: 7 doi: https://doi.org/10.1016/j.eurpolymj.2023.112422 | ||
| 8 | Ninjan, R., Thongnuanchan, B., Lopattananon, N. and Nakason, C. (2022). Anti-rust primer for steel based on natural rubber bearing methacrylic functionality. EXPRESS POLYMER LETTERS, 16(6), 573-590. Cited: 2 doi: https://doi.org/10.3144/expresspolymlett.2022.43 | ||
| 9 | Wongvasana, B., Thongnuanchan, B., Masa, A., Saito, H., Sakai, T. and Lopattananon, N. (2022). Comparative Structure-Property Relationship between Nanoclay and Cellulose Nanofiber Reinforced Natural Rubber Nanocomposites. POLYMERS, 14(18) Cited: 7 doi: https://doi.org/10.3390/polym14183747 | ||
| 10 | Walong, A., Thongnuanchan, B., Uthaipan, N., Sakai, T. and Lopattananon, N. (2022). Enhancing cellular structure, mechanical properties, thermal stability and flame retardation of EVA/NR blend nanocomposite foams by silicon dioxide-based flame retardant. PROGRESS IN RUBBER PLASTICS AND RECYCLING TECHNOLOGY, 38(1), 70-88. Cited: 6 doi: https://doi.org/10.1177/14777606211042028 | ||
| 11 | Salaeh, S., Nobnop, S., Thongnuanchan, B., Das, A. and Wiessner, S. (2022). Thermo-responsive programmable shape memory polymer based on amidation cured natural rubber grafted with poly(methyl methacrylate). POLYMER, 262 Cited: 9 doi: https://doi.org/10.1016/j.polymer.2022.125444 | ||
| 12 | Nontasak, W., Thongnuanchan, B., Ninjan, R., Lopattananon, N., Wannavilai, P. and Nakason, C. (2021). Fire-retardant wood coating based on natural rubber bearing methacrylic functionality. JOURNAL OF POLYMER ENGINEERING, 41(1), 44-53. Cited: 5 doi: https://doi.org/10.1515/polyeng-2020-0092 | ||
| 13 | Walong, A., Thongnuanchan, B., Sakai, T. and Lopattananon, N. (2021). Influence of silicon dioxide addition and processing methods on structure, thermal stability and flame retardancy of EVA/NR blend nanocomposite foams. PROGRESS IN RUBBER PLASTICS AND RECYCLING TECHNOLOGY, 37(1), 49-65. Cited: 7 doi: https://doi.org/10.1177/1477760620953437 | ||
| 14 | Ninjan, R., Thongnuanchan, B., Lopattananon, N., Thitithammawong, A. and Nakason, C. (2021). Rubber-to-steel adhesives based on natural rubber grafted with poly(acetoacetoxyethyl methacrylate). JOURNAL OF POLYMER ENGINEERING, 41(3), 192-201. Cited: 2 doi: https://doi.org/10.1515/polyeng-2020-0156 | ||
| 15 | Sawangpet, K., Walong, A., Thongnuanchan, B., Kaesaman, A., Sakai, T. and Lopattananon, N. (2020). Foaming and Physical Properties, Flame Retardancy, and Combustibility of Polyethylene Octene Foams Modified by Natural Rubber and Expandable Graphite. JOURNAL OF VINYL & ADDITIVE TECHNOLOGY, 26(4), 423-433. Cited: 17 doi: https://doi.org/10.1002/vnl.21757 | ||
| 16 | Sawangpet, K., Walong, A., Kaesaman, A., Thongnuanchan, B., Sakai, T. and Lopattananon, N. (2020). Structure, physical properties, and flame retardancy of POE/NR/EG blend foams: Effect of crosslinking. MALAYSIAN JOURNAL OF FUNDAMENTAL AND APPLIED SCIENCES, 16(1), 44-50. Cited: 1 | ||
| 17 | Ninjan, R., Thongnuanchan, B., Lopattananon, N., Thitithammawong, A. and Nakason, C. (2019). Ambient curable latex films and adhesives based on natural rubber bearing Acetoacetoxy functionality. POLYMERS FOR ADVANCED TECHNOLOGIES, 30(3), 598-607. Cited: 7 doi: https://doi.org/10.1002/pat.4496 | ||
| 18 | Thongnuanchan, B., Nantayos, W., Lopattananon, N., Rattanapan, S., Thitithammawong, A. and Nakason, C. (2019). New Thermoplastic Vulcanizate Based on Acetoacetoxy Functionalized Natural Rubber/Polyamide12 Blend Filled with Carbon Black. JOURNAL OF POLYMERS AND THE ENVIRONMENT, 27(8), 1807-1820. Cited: 8 doi: https://doi.org/10.1007/s10924-019-01475-2 | ||
| 19 | Lopattananon, N., Julyanon, J., Masa, A. and Thongnuanchan, B. (2018). Effect of the Addition of ENR on Foam Properties of EVA/NR/Clay Nanocomposites. INTERNATIONAL POLYMER PROCESSING, 33(1), 42-51. Cited: 6 doi: https://doi.org/10.3139/217.3358 | ||
| 20 | Thongnuanchan, B., Ninjan, R., Kalkornsurapranee, E., Lopattananon, N. and Nakason, C. (2018). Glutaraldehyde as Ambient Temperature Crosslinking Agent of Latex Films from Natural Rubber Grafted with Poly(diacetone acrylamide). JOURNAL OF POLYMERS AND THE ENVIRONMENT, 26(7), 3069-3085. Cited: 14 doi: https://doi.org/10.1007/s10924-018-1193-8 | ||
| 21 | Kalkornsurapranee, E., Yung-Aoon, W., Thongnuanchan, B., Thitithammawong, A., Nakason, C. and Johns, J. (2018). Influence of grafting content on the properties of cured natural rubber grafted with PMMAs using glutaraldehyde as a cross-linking agent. ADVANCES IN POLYMER TECHNOLOGY, 37(5), 1478-1485. Cited: 20 doi: https://doi.org/10.1002/adv.21806 | ||
| 22 | Thongnuanchan, B., Ninjan, R., Kaesaman, A. and Nakason, C. (2018). Synthesis of modified Natural Rubber with grafted poly(acetoacetoxyethyl methacrylate-co-methyl methacrylate) and performance of derived adhesives with GTA crosslinker. POLYMER ENGINEERING AND SCIENCE, 58(9), 1610-1618. Cited: 11 doi: https://doi.org/10.1002/pen.24750 | ||
| 23 | Thongnuanchan, B., Ninjan, R. and Nakason, C. (2017). Acetoacetoxy functionalized natural rubber latex capable of forming cross-linkable film under ambient conditions. IRANIAN POLYMER JOURNAL, 26(1), 41-53. Cited: 6 doi: https://doi.org/10.1007/s13726-016-0497-6 | ||
| 24 | Thongnuanchan, B., Rattanapan, S., Persalea, K., Thitithammawong, A., Pichaiyut, S. and Nakason, C. (2017). Improving properties of natural rubber/polyamide 12 blends through grafting of diacetone acrylamide functional group. POLYMERS FOR ADVANCED TECHNOLOGIES, 28(9), 1148-1155. Cited: 7 doi: https://doi.org/10.1002/pat.4007 | ||
| 25 | Thongnuanchan, B., Ninjan, R., Kaesaman, A. and Nakason, C. (2015). A novel method to crosslink natural rubber latex adhesive at ambient temperature. POLYMER BULLETIN, 72(1), 135-155. Cited: 13 doi: https://doi.org/10.1007/s00289-014-1264-5 | ||
| 26 | Thongnuanchan, B., Ninjan, R., Kaesaman, A. and Nakason, C. (2015). Studies on the ambient temperature crosslinking of latex films based on natural rubber grafted with poly(diacetone acrylamide) using DMTA. JOURNAL OF POLYMER RESEARCH, 22(6) Cited: 11 doi: https://doi.org/10.1007/s10965-015-0760-0 | ||
| 27 | Inted, S., Lopattananon, N., Thongnuanchan, B. and Kaesaman, A. (2014). Comparative study of NR/BR/PP and NR/NBR/PP ternary blends for high abrasion resistant thermoplastic vulcanizates. ADVANCES IN RUBBER, 844, 131-134. Cited: 3 doi: https://doi.org/10.4028/www.scientific.net/AMR.844.131 | ||
| 28 | Yokkhun, P., Thongnuanchan, B. and Nakason, C. (2014). Influence of Epoxide Levels in Epoxidized Natural Rubber (ENR) Molecules on Cure Characteristics, Dynamic Properties and Mechanical Properties of ENR/Montmorillonite Clay Nanocomposites. ADVANCES IN RUBBER, 844, 247-250. Cited: 4 doi: https://doi.org/10.4028/www.scientific.net/AMR.844.247 | ||
| 29 | Thongnuanchan, B., Ninjan, R., Bunsanong, A. and Nakason, C. (2014). Room-Temperature Curing Adhesive based on Graft Copolymers of Natural Rubber and Poly(Diacetone Acrylamide). ADVANCES IN RUBBER, 844, 353-356. Cited: 1 doi: https://doi.org/10.4028/www.scientific.net/AMR.844.353 | ||
| 30 | Yokkhun, P., Thongnuanchan, B. and Nakason, C. (2012). Fundamental Studies on Cure Characteristics and Mechanical Properties of Nanocomposites Based on Epoxidized Natural Rubber (ENR-30) and Montmorillonite Clay. ADVANCED MATERIALS ENGINEERING AND TECHNOLOGY, 626, 79-84. Cited: 0 doi: https://doi.org/10.4028/www.scientific.net/AMR.626.79 | ||
| 31 | Thongnuanchan, B., Suwanpetch, S. and Nakason, C. (2012). Utilization of Raw Gypsum as Hydrated Filler in Bagasse Particleboard Bonded with a Formaldehyde-free Epoxidized Natural Rubber Adhesive. ADVANCED MATERIALS ENGINEERING AND TECHNOLOGY, 626, 44-49. Cited: 0 doi: https://doi.org/10.4028/www.scientific.net/AMR.626.44 | ||
| 32 | Thongnuanchan, B., Nokkaew, K., Kaesaman, A. and Nakason, C. (2007). Epoxidized natural rubber-bonded para rubber wood particleboard. POLYMER ENGINEERING AND SCIENCE, 47(4), 421-428. Cited: 25 doi: https://doi.org/10.1002/pen.20668 | ||
| รวม WoS/ISI 32 รายการ 224 citations | |||
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