| ลำดับ | รายละเอียดผลงาน | ||
|---|---|---|---|
| 1 | Dynamic response and molecular chain modifications associated with degradation during mixing of silica-reinforced natural rubber compounds อัมรินทร์ ไกรบุตร : 30% SITISAIYIDAH SAIWARI : 15%,WISUT KAEWSAKUL : 5%,JACQUES W.M. NOORDERMEER : 10%,KANNIKA SAHAKARO : 25%,WILMA K. DIERKES : 15% (2023). Polymers, 15(1 Article ), 1-16. Quartile: Q1 | ||
| 2 | Effect of Hybrid Carbon Black/Lignin on Rheological, Mechanical and Thermal Stability Properties of NR/BR Composites NOR ANIZAH MOHAMAD AINI : 30% NADRAS OTHMAN : 30%,M. HAZWAN HUSSIN : 10%,KANNIKA SAHAKARO : 15%,NABIL HAYEEMASAE : 15% (2022). Plastics, Rubber and Composites, 51(6), 293-305. Quartile: Q3 | ||
| 3 | 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 NOR ANIZAH MOHAMAD AINI : 30% NADRAS OTHMAN : 30%,M. HAZWAN HUSSIN : 10%,KANNIKA SAHAKARO : 15%,NABIL HAYEEMASAE : 15% (2022). Industrial Crops & Products , 185(115167), 1-11. Quartile: Q1 | ||
| 4 | Lignin as Green Filler in Polymer Composites: Development Methods, Characteristics, and Potential Applications MUHAMMAD RASYIDUR RIDHO : 2% ERIKA AYU AGUSTIANY : 2%,MUSLIMATUL RAHMI DN : 2%,ELVARA WINDRA MADYARATRI : 2%,MUHAMMAD GHOZALI : 2%,WITTA KARTIKA RESTU RESTU : 2%,FAIZATUL FALAH : 2%,MUHAMMAD ADLY RAHANDI LUBIS : 2%,FIRDA AULYA SYAMANI : 2%,YEYEN NURHAMIYAH : 2%,SRI HIDAYATI : 2%,ASMA (2022). Advances in Materials Science and Engineering, 2022(Article nu), 1-33. Quartile: Q3 | ||
| 5 | Elucidating the role of clay-modifier on the properties of silica- and silica/nanoclay-reinforced natural rubber tire compounds KANNIKA SAHAKARO : 40% SUPPACHAI SATTAYANURAK : 30%,WISUT KAEWSAKUL : 10%,W.K. DIERKES : 5%,L.A.E.M. REUVEKAMP : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 5% (2021). EXPRESS POLYMER LETTERS, 15(7), 666-684. Quartile: Q1 | ||
| 6 | Enhancing performance of silica-reinforced natural rubber tire tread compounds by applying organoclay as secondary filler KANNIKA SAHAKARO : 40% SUPPACHAI SATTAYANURAK : 30%,WISUT KAEWSAKUL : 10%,W.K. DIERKES : 5%,L.A.E.M. REUVEKAMP : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 5% (2021). RUBBER CHEMISTRY AND TECHNOLOGY, 94(1), 121-144. Quartile: Q3 | ||
| 7 | Modified Palm Stearin Compatibilized Natural Rubber/Halloysite Nanotubes Composites: Reinforcement versus Strain-induced Crystallization NUREEYAH JEHSOH : 30% INDRA SURYA : 5%,KANNIKA SAHAKARO : 20%,HANAFI ISMAIL : 5%,NABIL HAYEEMASAE : 40% (2021). JOURNAL OF ELASTOMERS AND PLASTICS, 53(3 Article ), 210-227. Quartile: Q3 | ||
| 8 | Better balance of silica-reinforced natural rubber tire tread compound properties by the use of montmorillonite with optimum surface modifier content MOHAMMAD IRFAN FATHURROHMAN : 30% KANNIKA SAHAKARO : 40%,NABIL HAYEEMASAE : 25%,SUPAGORN RUGMAI : 5% (2020). RUBBER CHEMISTRY AND TECHNOLOGY, 93(3), 548-566. Quartile: Q3 | ||
| 9 | Effect of Extraction Methods on the Molecular Structure and Thermal Stability of Kenaf (Hibiscus cannabinus core) Biomass as an Alternative Bio-filler for Rubber Composites NADRAS OTHMAN : 30% NOR ANIZAH MOHAMAD AINI : 30%,M. HAZWAN HUSSIN : 10%,KANNIKA SAHAKARO : 15%,NABIL HAYEEMASAE : 15% (2020). INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 154(-), 1255-1264. Quartile: Q1 | ||
| 10 | Improvement of silica-reinforced natural rubber tire tread compounds by joint hybridization with small amounts of secondary fillers and polymers KANNIKA SAHAKARO : 40% SUPPACHAI SATTAYANURAK : 30%,WISUT KAEWSAKUL : 10%,W.K. DIERKES : 5%,L.A.E.M. REUVEKAMP : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 5% (2020). RUBBER CHEMISTRY AND TECHNOLOGY, 93(4), 652-671. Quartile: Q3 | ||
| 11 | Lignin as Alternative Reinforcing Filler in the Rubber Industry: A Review NADRAS OTHMAN : 30% NOR ANIZAH MOHAMAD AINI : 30%,M. HAZWAN HUSSIN : 10%,KANNIKA SAHAKARO : 15%,NABIL HAYEEMASAE : 15% (2020). FRONTIERS IN MATERIALS, 6(Article Nu), 1-18. Quartile: Q2 | ||
| 12 | Maleated Natural Rubber Compatibilized Natural Rubber/Halloysite Nanotubes Composites NABIL HAYEEMASAE : 60% KANNIKA SAHAKARO : 25%,HANAFI ISMAIL : 15% (2020). POLYMER-KOREA, 44(5), 596-602. Quartile: Q4 | ||
| 13 | Maleated Natural Rubber/Halloysite Nanotubes Composites NABIL HAYEEMASAE : 40% ZAREEDAN SENSEM : 30%,KANNIKA SAHAKARO : 25%,HANAFI ISMAIL : 5% (2020). PROCESSES, 8(3 Article ), 1-13. Quartile: Q2 | ||
| 14 | Silica-reinforced natural rubber tire treads compounds containing bio-based process oils. I. Aspect of mixing sequence and oxygen oxirane content KANNIKA SAHAKARO : 50% CHESIDI HAYICHELAEH : 30%,L.A.E.M. REUVEKAMP : 5%,W.K. DIERKES : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 5% (2020). RUBBER CHEMISTRY AND TECHNOLOGY, 93(2), 360-377. Quartile: Q3 | ||
| 15 | Silica-reinforced natural rubber tire treads compounds containing bio-based process oils. II. Influence of epoxide and amino functional groups KANNIKA SAHAKARO : 50% CHESIDI HAYICHELAEH : 30%,L.A.E.M REUVEKAMP : 5%,W.K. DIERKES : 5%,ANKE BLUME : 5%,J.W.M. NOORDERMEER : 5% (2020). RUBBER CHEMISTRY AND TECHNOLOGY, 93(1), 195-207. Quartile: Q3 | ||
| 16 | Synergistic effect by high specific surface area carbon black as secondary filler in silica reinforced natural rubber tire tread compounds KANNIKA SAHAKARO : 40% SUPPACHAI SATTAYANURAK : 30%,WISUT KAEWSAKUL : 10%,W.K. DIERKES : 5%,L.A.E.M. REUVEKAMP : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 5% (2020). POLYMER TESTING, 81(Article Nu), 1-10. Quartile: Q1 | ||
| 17 | Synergistic Effect of Maleated Natural Rubber and Modified Palm Stearin as Dual Compatibilizers in Composites Based on Natural Rubber and Halloysite Nanotubes NABIL HAYEEMASAE : 40% ZAREEDAN SENSEM : 30%,KANNIKA SAHAKARO : 25%,INDRA SURYA : 2.5%,HANAFI ISMAIL : 2.5% (2020). POLYMERS, 12(4 Article ), 1-14. Quartile: Q1 | ||
| 18 | Dispersion and properties of natural rubber-montmorillonite nanocomposites fabricated by novel in situ organomodified and latex compounding method KANNIKA SAHAKARO : 40% MOHAMAD IRFAN FATHURROHMAN : 30%,SUPAGORN RUGMAI : 5%,NABIL HAYEEMASAE : 25% (2019). Polymer Engineering and Science, 59(9), 1830-1839. Quartile: Q2 | ||
| 19 | Hydroxymethylation-Modified Lignin and Its Effectiveness as a Filler in Rubber Composites NADRAS OTHMAN : 30% NOR ANIZAH MOHAMAD AINI : 30%,M. HAZWAN HUSSIN : 10%,KANNIKA SAHAKARO : 15%,NABIL HAYEEMASAE : 15% (2019). Processes, 7(5 Article ), 1-21. Quartile: Q2 | ||
| 20 | Silica reinforced natural rubber: Synergistic effects by addition of small amounts of secondary fillers to silica-reinforced natural rubber tire tread compounds KANNIKA SAHAKARO : 35% SUPPACHAI SATTAYANURAK : 30%,J.W.M. NOORDERMEER : 10%,W. KAEWSAKUL : 15%,W.K. DIERKES : 5%,A. BLUME : 5% (2019). Advances in Materials Science and Engineering, 2019(Article ID), 1-8. Quartile: Q3 | ||
| 21 | Enhancing the silanization reaction of silica-silane system by different amines in model and practical silica-filled rubber compounds KANNIKA SAHAKARO : 50% CHESIDI HAYICHELAEH : 25%,L.A.E.M. REUVEKAMP : 5%,W.K. DIERKES : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 10% (2018). Polymers, 10(6 Article), 1-16. Quartile: Q1 | ||
| 22 | Promoting interfacial compatibility of silica-reinforced natural rubber tire compounds by aliphatic amine KANNIKA SAHAKARO : 50% CHESIDI HAYICHELAEH : 25%,L.A.E.M. REUVEKAMP : 5%,W.K. DIERKES : 5%,A. BLUME : 5%,J.W.M. NOORDERMEER : 10% (2018). Rubber Chemistry and Technology, 91(2), 433-452. Quartile: Q2 | ||
| 23 | Reinforcement of natural rubber by silica/silane in dependence of different amine types KANNIKA SAHAKARO : 45% CHESIDI HAYICHELAEH : 35%,LOUIS A.E.M. REUVAKAMP : 5%,ANKE BLUME : 5%,JACQUES W.M. NOORDERMEER : 10% (2017). Rubber Chemistry and Technology, 90(4), 651-666. Quartile: Q3 | ||
| 24 | Silane grafted natural rubber and its compatibilization effect on silica-reinforced rubber tire compounds KANNIKA SAHAKARO : 50% KARNDA SENGLOYLUAN : 35%,W.K. DIERKES : 5%,JACQUES W.M. NOORDERMEER : 10% (2017). Express Polymer Letters, 11(12), 1003-1022. Quartile: Q1 | ||
| 25 | Compatibilization of silica-filled natural rubber compounds by combined effects of functionalized low molecular weight rubber and silane KANNIKA SAHAKARO : 40% PRACHID SARAMOLEE : 35%,NATINEE LOPATTANANON : 15%,WILMA K. DIERKES : 5%,JACQUES W.M. NOORDERMEER : 5% (2016). Journal of Elastomers and Plastics, 48(2), 145-163. Quartile: Q4 | ||
| 26 | Compatibilization of silica-filled natural rubber compounds by functionalized low molecular weight polymer KANNIKA SAHAKARO : 40% PRACHID SARAMOLEE : 35%,NATINEE LOPATTANANON : 15%,WILMA K. DIERKES : 5%,JACQUES W.M. NOORDERMEER : 5% (2016). Journal of Rubber Research, 19(1), 28-42. Quartile: Q4 | ||
| 27 | Factors influencing the flocculation process in silica-reinforced natural rubber compounds KANNIKA SAHAKARO : 40% WISUT KAEWSAKUL : 45%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 10% (2016). JOURNAL OF ELASTOMERS AND PLASTICS, 48(5), 426-444. Quartile: Q4 | ||
| 28 | Reduced ethanol emissions by a combination of epoxidized natural rubber and silane coupling agent for silica-reinforced natural rubber-based tire treads KANNIKA SAHAKARO : 50% KARNDA SENGLOYLUAN : 35%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 10% (2016). Rubber Chemistry and Technology, 89(3), 419-435. Quartile: Q3 | ||
| 29 | Reinforcement Efficiency of Silica in Dependence of Different Types of Silane Coupling Agents in Natural Rubber-based Tire Compounds KANNIKA SAHAKARO : 50% KARNDA SENGLOYLUAN : 35%,WILMA K. DIERKES : 5%,JACQUES W.M. NOORDERMEER : 10% (2016). KGK-Kautschuk Gummi Kunststoffe, 69(5), 44-53. Quartile: Q4 | ||
| 30 | Synergistic effects in silica-reinforced natural rubber compounds compatibilized by ENR in combination with different silane coupling agent types KANNIKA SAHAKARO : 50% KARNDA SENGLOYLUAN : 35%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 10% (2016). Journal of Rubber Research, 19(3), 170-189. Quartile: Q4 | ||
| 31 | A review on reinforcement of natural rubber by silica fillers for use in low-rolling resistance tyres. SALINA SARKAWI : 30% WISUT KAEWSAKUL : 35%,KANNIKA SAHAKARO : 25%,WILMA K. DIERKES : 5%,JACQUES W.M. NOORDERMEER : 5% (2015). Journal of Rubber Research, 18(4), 203-233. Quartile: Q4 | ||
| 32 | Mechanistic aspects of silane coupling agents with different functionalities on reinforcement of silica-filled natural rubber compounds KANNIKA SAHAKARO : 40% WISUT KAEWSAKUL : 45%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 10% (2015). na, 55(4), 836-842. Quartile: Q2 | ||
| 33 | Petroleum-based safe process oils in NR and NR/SBR blends: Part III. Effects of oil types and contents on the properties of carbon black filled compounds KANNIKA SAHAKARO : 45% ANIDA PETCHKAEW : 25%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 15% (2015). KGK-Kautschuk Gummi Kunststoffe, 68(9), 20-29. Quartile: Q4 | ||
| 34 | Comparative properties of silica- and carbon black-reinforced natural rubber in the presence of epoxidized low molecular weight polymer KANNIKA SAHAKARO : 40% PRACHID SARAMOLEE : 35%,NATINEE LOPATTANANON : 15%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 5% (2014). na, 87(2), 320-339. | ||
| 35 | Cooperative effects of epoxide functional groups on natural rubber and silane coupling agents on reinforcing efficiency of silica KANNIKA SAHAKARO : 45% WISUT KAEWSAKUL : 40%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 10% (2014). na, 87(2), 291-310. | ||
| 36 | Preparation and Some Properties of Modified Natural Rubber Bearing Grafted Poly(methyl methacrylate) and Epoxide Groups KANNIKA SAHAKARO : 45% PRACHID SARAMOLEE : 40%,NATINEE LOPATTANANON : 15% (2014). European Polymer Journal, 56(-), 1-10. | ||
| 37 | Silica-Reinforced Tire Tread Compounds Compatibilized by Using Epoxidized Natural Rubber KANNIKA SAHAKARO : 40% KARNDA SENGLOYLUAN : 40%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 15% (2014). European Polymer Journal, 51(2), 69-79. | ||
| 38 | Use of Disulfide-based Silane Coupling Agents with Compensation of Sulfur in Silica-Reinforced Natural Rubber Compounds KANNIKA SAHAKARO : 40% WISUT KAEWSAKUL : 40%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 15% (2014). KGK-Kautschuk Gummi Kunststoffe, 67(5), 33-39. | ||
| 39 | Verification of Interactions between Silica and Epoxidized Squalene as a Model for Epoxidized Natural Rubber KANNIKA SAHAKARO : 45% WISUT KAEWSAKUL : 40%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 10% (2014). Journal of Rubber Research, 17(3), 129-142. | ||
| 40 | Alternative secondary accelerator for silica-filled natural rubber formulations WISUT KAEWSAKUL : 40% KANNIKA SAHAKARO : 35%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 20% (2013). Kautschuk Gummi Kunststoffe, 66(9), 33-38. | ||
| 41 | Comparison of properties of admicellar polymerization surface modified silica- and conventional fillers-reinforced tire tread compounds KANNIKA SAHAKARO : 50% PORNSIRI TOH-AE : 30%,NATINEE LOPATTANANON : 15%,THIRAWUDH PONGPRAYOON : 5% (2013). Asian Journal of Chemistry, 25(9), 5226-5232. | ||
| 42 | Optimization of Rubber Formulation for Silica-Reinforced Natural Rubber Compounds KANNIKA SAHAKARO : 40% WISUT KAEWSAKUL : 40%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 15% (2013). Rubber Chemistry and Technology, 86(2), 313-329. | ||
| 43 | Petroleum-based Safe Process Oils in NR, SBR and their Blends: Study on Unfilled Compounds. Part I. Oil Characteristics and Solubility Aspects ANIDA PETCHKAEW : 35% KANNIKA SAHAKARO : 45%,J.W.M. NOORDERMEER : 20% (2013). Kautschuk Gummi Kunststoffe, 66(4), 43-47. | ||
| 44 | Petroleum-based Safe Process Oils in NR, SBR and their Blends: Study on Unfilled Compounds. Part II. Properties ANIDA PETCHKAEW : 35% KANNIKA SAHAKARO : 45%,J.W.M. NOORDERMEER : 20% (2013). Kautschuk Gummi Kunststoffe, 66(5), 21-27. | ||
| 45 | Influence of epoxide level and reactive blending on properties of epoxidized natural rubber and nylon-12 blends CHAROEN NAKASON : 40% KANNIKA SAHAKARO : 10%,MASWANEE NARATHICHAT : 30%,NORBERT VENNEMANN : 10%,CLAUDIA KUMMERLOWE : 10% (2012). Advances in Polymer Technology, 31(2), 118-129. | ||
| 46 | Optimization of mixing conditions for silica-reinforced natural rubber tire tread compounds WISUT KAEWSAKUL : 40% KANNIKA SAHAKARO : 35%,WILMA K. DIERKES : 5%,J.W.M. NOORDERMEER : 20% (2012). Rubber Chemistry and Technology, 85(2), 277-294. | ||
| 47 | Epoxidized natural oils as the alternative safe process oils in rubber compounds KANNIKA SAHAKARO : 80% AMNUWA BERAHENG : 20% (2011). Rubber Chemistry and Technology, 84(2), 200-214. | ||
| 48 | Assessment degradation of natural rubber by moving die processability test and FTIR spectroscopy CHAROEN NAKASON KANNIKA SAHAKARO,MASSAVANEE NARATHICHART (2010). Journal of Applied Polymer Science , 115(3), 1702-1709. | ||
| 49 | Influence of Reaction Volume on the Properties of Natural Rubber-g-Methyl Methacrylate CHAROEN NAKASON : 40% KANNIKA SAHAKARO : 15%,AZIZON KAESAMAN : 15%,EKVIPOO KARNKORNSURAPRANEE : 30% (2010). Journal of Elastomers and Plastics, 42(1), 17-34. | ||
| 50 | From a Laboratory to a Pilot Scale Production of Natural Rubber grafted with PMMA KANNIKA SAHAKARO : 40% CHAROEN NAKASON : 30%,AZIZON KAESAMAN : 15%,EKWIPOO KALKORNSURAPRANEE : 15% (2009). Journal of Applied Polymer Science, 114(1), 587-597. | ||
| รวม 50 รายการ | |||
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