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| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Tsupphayakorn-Aek P., Suwan A., Tulyapitak T., Saetung N. and Saetung A. (2022). A novel UV-curable waterborne polyurethane-acrylate coating based on green polyol from hydroxyl telechelic natural rubber. Progress in Organic Coatings, 163 Cited: 0 doi: https://doi.org/10.1016/j.porgcoat.2021.106585 | ||
| 2 | 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: 0 doi: https://doi.org/10.3144/expresspolymlett.2022.43 | ||
| 3 | Baru F., Saiwari S. and Hayeemasae N. (2022). Classification of natural rubber foam grades by optimising the azodicarbonamide content. Polimeros, 32(2) Cited: 0 doi: https://doi.org/10.1590/0104-1428.20210111 | ||
| 4 | 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: 0 doi: https://doi.org/10.3390/polym14183747 | ||
| 5 | Hayeemasae N., Adair A. and Masa A. (2022). COMPARATIVE STUDY ON VISCOSITIES, STRESS RELAXATION, CURING AND MECHANICAL PROPERTIES OF SEPIOLITE AND SILICA FILLED NATURAL RUBBER COMPOSITES. Malaysian Journal of Analytical Sciences, 26(2), 176-190. Cited: 0 | ||
| 6 | Salaeh S. and Kao-Ian P. (2022). Conductive epoxidized natural rubber nanocomposite with mechanical and electrical performance boosted by hybrid network structures. Polymer Testing, 108 Cited: 1 doi: https://doi.org/10.1016/j.polymertesting.2022.107493 | ||
| 7 | Mohamad Aini N., Othman N., Hussin M., Sahakaro K. and Hayeemasae N. (2022). Effect of hybrid carbon black/lignin on rheological, mechanical and thermal stability properties of NR/BR composites. Plastics, Rubber and Composites, 51(6), 293-305. Cited: 1 doi: https://doi.org/10.1080/14658011.2021.1981718 | ||
| 8 | Uthaipan N., Kongprabat T., Suwan A., Chaisit T., Saetung A. and Saetung N. (2022). Effect of Surface Treatment of Carbon Black Filled Insulation Foam Based on Modified Recycled Palm Oil. Journal of Polymers and the Environment Cited: 0 doi: https://doi.org/10.1007/s10924-022-02533-y | ||
| 9 | Hayeemasae N., Waesateh K., Soontaranon S. and Masa A. (2022). EFFECT OF VULCANIZATION SYSTEMS AND CROSSLINK DENSITY ON TENSILE PROPERTIES AND NETWORK STRUCTURES OF NATURAL RUBBER. Jurnal Teknologi, 84(6), 181-187. Cited: 0 doi: https://doi.org/10.11113/jurnalteknologi.v84.16467 | ||
| 10 | Mohamad Aini N., Othman N., Hussin M., Sahakaro K. and Hayeemasae N. (2022). Efficiency of interaction between hybrid fillers carbon black/lignin with various rubber-based compatibilizer, epoxidized natural rubber, and liquid butadiene rubber in NR/BR composites: Mechanical, flexibility and dynamical properties. Industrial Crops and Products, 185 Cited: 0 doi: https://doi.org/10.1016/j.indcrop.2022.115167 | ||
| 11 | 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: 0 doi: https://doi.org/10.1177/14777606211042028 | ||
| 12 | Rushdan A., Sapuan S., Bayraktar E., Hassan S., Hayeemasae N., Atikah M. and Shaker K. (2022). Fibre-Reinforced Polymer Composites: Mechanical Properties and Applications. Polymers, 14(18) Cited: 0 doi: https://doi.org/10.3390/polym14183732 | ||
| 13 | Hayeemasae N. and Ismail H. (2022). Halloysite nanotubes-filled natural rubber composite: Mechanical and other related properties. Mineral-Filled Polymer Composites: Perspectives, Properties, and New Materials, 111-134. Cited: 0 doi: https://doi.org/10.1201/9781003220947-6 | ||
| 14 | Hayeemasae N. and Ismail H. (2022). Halloysite nanotubes-filled natural rubber composite: Morphology and crystallization of the composites. Mineral-Filled Polymer Composites: Perspectives, Properties, and New Materials, 135-158. Cited: 0 doi: https://doi.org/10.1201/9781003220947-7 | ||
| 15 | Aiswarya S., Awasthi P., Shivaprakash N., Cooke A., Salaeh S. and Banerjee S. (2022). High-temperature thermoplastic elastomeric materials by electron beam treatment - Challenges and opportunities. Radiation Technologies and Applications in Materials Science, 257-286. Cited: 1 doi: https://doi.org/10.1201/9781003321910-10 | ||
| 16 | Kaesaman A., Boontawee H., Chewchanwuttiwong S. and Nakason C. (2022). Influence of benzyl esters of vegetable oils on curing, mechanical and dynamic properties of silica filled natural rubber and styrene-butadiene rubber compounds. Express Polymer Letters, 16(5), 540-556. Cited: 0 doi: https://doi.org/10.3144/expresspolymlett.2022.40 | ||
| 17 | Hayeemasae N., Saiwari S., Soontaranon S. and Masa A. (2022). Influence of Centrifugation Cycles of Natural Rubber Latex on Final Properties of Uncrosslinked Deproteinized Natural Rubber. Polymers, 14(13) Cited: 0 doi: https://doi.org/10.3390/polym14132713 | ||
| 18 | Nakason C., Pichaiyut S., Vennemann N. and Kaesaman A. (2022). Influence of processing oil on properties of dynamically cured epoxidized natural rubber and thermoplastic polyurethane blends. Polymer Bulletin Cited: 0 doi: https://doi.org/10.1007/s00289-022-04430-9 | ||
| 19 | Hayeemasae N., Adair A., Rasidi M., Jitsopin P. and Masa A. (2022). Influence of Sepiolite Addition Methods and Contents on Physical Properties of Natural Rubber Composites. Science and Technology Indonesia, 7(2), 140-148. Cited: 0 doi: https://doi.org/10.26554/sti.2022.7.2.140-148 | ||
| 20 | Ridho M., Agustiany E., Rahmi Dn M., Madyaratri E., Ghozali M., Restu W., Falah F., Rahandi Lubis M., Syamani F., Nurhamiyah Y., Hidayati S., Sohail A., Karungamye P., Nawawi D., Iswanto A., Othman N., Mohamad Aini N., Hussin M., Sahakaro K., Hayeemasae N., Ali M. and Fatriasari W. (2022). Lignin as Green Filler in Polymer Composites: Development Methods, Characteristics, and Potential Applications. Advances in Materials Science and Engineering, 2022 Cited: 0 doi: https://doi.org/10.1155/2022/1363481 | ||
| 21 | Thitithammawong A., Saiwari S., Salaeh S. and Hayeemasae N. (2022). Potent Application of Scrap from the Modified Natural Rubber Production as Oil Absorbent. Polymers, 14(23) Cited: 0 doi: https://doi.org/10.3390/polym14235066 | ||
| 22 | Chew J., Wahab M., Zulkeply N., Razak M. and Hayeemasae N. (2022). Preparation and characterization of NE-7150 and NE-7170 silicone rubber blend with different ratios and curing agents loading. AIP Conference Proceedings, 2496 Cited: 0 doi: https://doi.org/10.1063/5.0091399 | ||
| 23 | Saiwari S., Nobnop S., Bueraheng Y., Thitithammawong A., Hayeemasae N. and Salaeh S. (2022). Segregated MWCNT Structure Formation in Conductive Rubber Nanocomposites by Circular Recycling of Rubber Waste. ACS Applied Polymer Materials Cited: 0 doi: https://doi.org/10.1021/acsapm.2c01203 | ||
| 24 | Saiwari S., Hayeemasae N., Soontaranon S., Kalkornsurapranee E., Jaratrotkamjorn R. and Masa A. (2022). Structure-Property relationships in natural rubber representing several clonal varieties of Hevea Brasiliensis. Progress in Rubber, Plastics and Recycling Technology Cited: 0 doi: https://doi.org/10.1177/14777606221127372 | ||
| 25 | Salaeh S., Nobnop S., Thongnuanchan B., Das A. and Wie?ner S. (2022). Thermo-responsive programmable shape memory polymer based on amidation cured natural rubber grafted with poly(methyl methacrylate). Polymer, 262 Cited: 0 doi: https://doi.org/10.1016/j.polymer.2022.125444 | ||
| 26 | Ajinsamajan A., Rungvichaniwat A. and Saetung A. (2022). Utilization of silicon dioxide powder from industrial wastes as novel filler in rubber isolator application. Journal of Metals, Materials and Minerals, 32(1), 93-100. Cited: 0 doi: https://doi.org/10.55713/jmmm.v32i1.1205 | ||
| รวม Scopus 26 รายการ 3 citations | |||
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