Literatura científica selecionada sobre o tema "Natural rubber composite"
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Artigos de revistas sobre o assunto "Natural rubber composite"
Petchsoongsakul, Thidarat, Peerapan Dittanet, Surapich Loykulnant, Chaveewan Kongkaew e Paweena Prapainainar. "Synthesis of Natural Composite of Natural Rubber Filling Chitosan Nanoparticles". Key Engineering Materials 821 (setembro de 2019): 96–102. http://dx.doi.org/10.4028/www.scientific.net/kem.821.96.
Texto completo da fonteNakaramontri, Yeampon, Charoen Nakason, Claudia Kummerlöwe e Norbert Vennemann. "INFLUENCE OF MODIFIED NATURAL RUBBER ON PROPERTIES OF NATURAL RUBBER–CARBON NANOTUBE COMPOSITES". Rubber Chemistry and Technology 88, n.º 2 (1 de junho de 2015): 199–218. http://dx.doi.org/10.5254/rct.14.85949.
Texto completo da fonteGümrük, Recep, Uğur Mazlum e R. A. W. Mines. "COMPRESSIVE MECHANICAL BEHAVIORS OF HYBRID COMPOSITE MATERIALS BASED ON MICRO LATTICE STRUCTURE AND RUBBERLIKE MATERIALS". Rubber Chemistry and Technology 88, n.º 1 (1 de março de 2015): 147–62. http://dx.doi.org/10.5254/rct.14.86921.
Texto completo da fonteRoy, Kumarjyoti, Subhas Chandra Debnath, Aphiwat Pongwisuthiruchte e Pranut Potiyaraj. "NATURAL RUBBER/MICROCRYSTALLINE CELLULOSE COMPOSITES WITH EPOXIDIZED NATURAL RUBBER AS COMPATIBILIZER". Rubber Chemistry and Technology 92, n.º 2 (1 de abril de 2019): 378–87. http://dx.doi.org/10.5254/rct.19.81533.
Texto completo da fonteChoosang, N., e W. Smitthipong. "Study of nylon textile-reinforced natural rubber composite". IOP Conference Series: Materials Science and Engineering 1234, n.º 1 (1 de março de 2022): 012012. http://dx.doi.org/10.1088/1757-899x/1234/1/012012.
Texto completo da fonteLee, Sung-Hun, Gun-Woo Park, Hee-Jun Kim, Kyungho Chung e Keon-Soo Jang. "Effects of Filler Functionalization on Filler-Embedded Natural Rubber/Ethylene-Propylene-Diene Monomer Composites". Polymers 14, n.º 17 (26 de agosto de 2022): 3502. http://dx.doi.org/10.3390/polym14173502.
Texto completo da fonteDasaesamoh, Abedeen, Kittikhun Khotmungkhun e Kittitat Subannajui. "Natural Rigid and Hard Plastic Fabricated from Elastomeric Degradation of Natural Rubber Composite with Ultra-High Magnesium Carbonate Content". Polymers 15, n.º 14 (18 de julho de 2023): 3078. http://dx.doi.org/10.3390/polym15143078.
Texto completo da fonteZeng, Zong Qiang, He Ping Yu, Hong Chao Liu, Shuang Quan Liao e Zheng Peng. "Fabrication of Rice Husk Ash/Natural Rubber Composite". Advanced Materials Research 393-395 (novembro de 2011): 92–96. http://dx.doi.org/10.4028/www.scientific.net/amr.393-395.92.
Texto completo da fonteRen, Xianjie, Cindy S. Barrera, Janice L. Tardiff, Andres Gil e Katrina Cornish. "Liquid Guayule Natural Rubber, a Sustainable Processing Aid, Enhances the Processability, Durability and Dynamic Mechanical Properties of Rubber Composites". Materials 15, n.º 10 (18 de maio de 2022): 3605. http://dx.doi.org/10.3390/ma15103605.
Texto completo da fonteLeelawanachai, Wasan, Nattapol Dedruktip e Nuchnapa Tangboriboon. "Energy-Absorption Ability of Embedding Whisker Alumina Fiber into Natural Rubber Composite for Insulation Applications". Materials Science Forum 987 (abril de 2020): 47–52. http://dx.doi.org/10.4028/www.scientific.net/msf.987.47.
Texto completo da fonteTeses / dissertações sobre o assunto "Natural rubber composite"
South, Joseph Thomas. "Mechanical Properties and Durability of Natural Rubber Compounds and Composites". Diss., Virginia Tech, 2001. http://hdl.handle.net/10919/26306.
Texto completo da fontePh. D.
Poompradub, Sirilux. "Structure and physical properties of natural rubber based composite materials". 京都大学 (Kyoto University), 2005. http://hdl.handle.net/2433/144559.
Texto completo da fonteLongkaew, Khansinee. "Preparation of calcium carbonate particles for application in natural rubber composites". Electronic Thesis or Diss., Le Mans, 2024. https://cyberdoc-int.univ-lemans.fr/Theses/2024/2024LEMA1003.pdf.
Texto completo da fonteThis research aims to synthesize different types and shapes of calcium carbonate (CaCO3) particles at a submicrometric and nanoscale, and investigate their applications as reinforcing fillers for natural rubber (NR) composites. The study was therefore divided into two parts. Firstly, the preparation procedure of CaCO3 particles was based on the solution precipitation method between carbonate ions and calcium ions. The second part focused on investigating the mechanical properties of NR/CaCO3 composites. The first part started with the precipitation of (NH4)2CO3 and CaCl2 dissolved in 50% by weight of sucrose as the aqueous medium. This condition resulted in spherical CaCO3 with particle size of 0.42±0.14 µm with an aspect ratio of about one. When the precipitation reaction occurred in the presence of olive soap, the surface property of the CaCO3 was changed from hydrophilic (water contact angle of 28±2o) to superhydrophobic powders (water contact angle of 163±2o). The typical polymorphic phases of CaCO3 were characterized. The results revealed that both untreated and treated spherical CaCO3 were about 99% of the vaterite polymorph. In the precipitation process using Na2CO3 and CaCl2 aqueous solutions performed at 80±1C, bundle-liked CaCO3 was obtained with an aspect ratio in the range of 8–9. The superhydrophobic bundle-liked CaCO3 was also successfully synthesized by soap treatment. The water contact angle of untreated and treated bundle-liked are 29±2o, and 167±2o, respectively. Furthermore, the spherical CaCO3 dispersed in water at 80C resulted in the fiber-shaped CaCO3 nanoparticles which were achieved via the polymorph transformation from spherical vaterite to long nano-wired aragonite with the highest aspect ratio of 156.9. The untreated fiber CaCO3 was hydrophilic with a water contact angle of 31±1o, while the treated fiber CaCO3 with soap resulted in 165±5o of water contact angle, hence it was superhydrophobic similar to other synthesized CaCO3 polymorphs. The XRD revealed that the untreated and treated bundle-liked and fiber-shaped CaCO3 contained the majority of aragonite followed by vaterite and calcite polymorphs. The second part was carried out to incorporate the prepared CaCO3 (0,5,10,20,40,60 phr) in NR latex. It was found that the CaCO3 polymorphs were stable in the NR latex medium. The mechanical properties of NR/CaCO3 included tensile strength, elongation at break, tear strength, and hardness Shore A. It was found that the tensile strength of NR/CaCO3 composites increased when CaCO3 loading was increased. The tensile strength of NR improved from 22.68±2.22 MPa of neat NR up to 23.94±0.97 MPa when untreated spherical CaCO3 powders (20 phr) were added, and to 25.28±0.80 MPa of treated spherical CaCO3 (20 phr) filled NR. The maximum tensile strength of NR/untreated bundle-liked CaCO3 was 30.59±3.50 MPa at 40 phr of loading while 31.51±1.02 MPa of NR/treated bundle-liked CaCO3 at filler loading 20 phr was obtained. The treated CaCO3-filled NR vulcanizates gave higher tensile strength than the untreated ones. This was caused by better compatibility of filler dispersion between the hydrophobicity of treated CaCO3 and hydrophobic property of NR. As a result, it was found that the NR filled with untreated fiber CaCO3 particle provided the highest tensile strength of 31.66±1.80 MPa at 10 phr of filler loading, over other types of CaCO3. The nanoparticle, large surface area, and high aspect ratio of fiber/ long nano wired of CaCO3 enhanced the interfacial adhesion between CaCO3 and NR matrix which could transfer stress from rubber to filler effectively during stretching. This resulted in the reinforcing efficacy of the fiber CaCO3. In summaroze, the prepared CaCO3 powders have the potential to broaden their application not only as diluents or additives but also as reinforcing agents
Tabe, J. O. "Synthesis and characterisation of composite latex particles based on a natural rubber latex". Thesis, Lancaster University, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.268115.
Texto completo da fonteNozet, Quentin. "Structure et propriétés de matériaux composites obtenus par hétérocoagulation de latex de caoutchouc naturel et de noir de carbone". Electronic Thesis or Diss., Université Paris sciences et lettres, 2020. http://www.theses.fr/2020UPSLS033.
Texto completo da fonteThis thesis investigates the storage hardening of natural rubber and carbon black composites made by heterocoagulation. Heterocoagulation is a process that consists in injecting a carbon black slurry at high speed into a colloidal suspension of natural rubber. We obtain a squishy and highly hydrated material that is subsequently dried and processed using an internal mixer or a mechanical press. The hardening is characterized using various rheological techniques among which torsional rheology and Mooney viscosimetry. Many parameters are investigated: the processing technique, the storage environment, the presence of residual water, temperature, the carbon black content. We define characteristic times of hardening whose temperature dependence indicates that the hardening results from a activated process. The energies of activation are nearly independent of the experimental parameters and compare well to that found in natural rubber. Swelling experiments in good solvent show that hardening is associated with the buildup of an interconnected network of macromolecules. We discuss the origin of this network in relation with the microstructure of natural polyisoprene and the presence of phospholipids and proteins
Hariwongsanupab, Nuttapong. "Development of green natural rubber composites : Effect of nitrile rubber, fiber surface treatment and carbon black on properties of pineapple leaf fiber reinforced natural rubber composites". Thesis, Mulhouse, 2017. http://www.theses.fr/2017MULH0399/document.
Texto completo da fonteThe effects of nitrile rubber (NBR), fiber surface treatment and carbon black on properties of pineapple leaf fiber-reinforced natural rubber composites (NR/PALF) were studied. The incorporation of NBR and surface treatment of fiber were used to improve the mechanical properties of composites at low deformation, whereas carbon black was used to improve these properties at high deformation. The fiber content was fixed at 10 phr. The composites were prepared using two-roll mill and were cured using compression moulding with keeping the fiber orientation. These composites were characterized using moving die rheometer (MDR), dynamic mechanical thermal analysis (DMTA) and tensile testing. The morphology after cryogenic fracture was observed using scanning electron microscopy (SEM). The effect of NBR from 0 to 20 phr of total rubber content was investigated. NBR is proposed to encase PALF leading to higher stress transfer between matrix and PALF. The method of mixing was also studied. For the fiber surface treatment, propylsilane, allylsilane and silane-69 were treated on the alkali-treated fiber. Treated fibers were characterized using Fourier-Transform infrared spectroscopy (FTIR), x-ray photoelectron spectroscopy (XPS) and SEM. Silane-69 treatment of fiber increased the modulus at low deformation more than the incorporation of NBR of NR/PALF composites due to the chemical crosslinking between rubber and fiber from silane-69 treatment rather than the physical interaction of NR, NBR and fiber. However, reinforcement by fiber reduced the deformation at break. Hence, carbon black was also incorporated into NR/NBR/PALF and NR/surface-treated PALF composites to improve the ultimate properties. By incorporation of carbon black 30 phr in both composites, the mechanical properties of composites were improved and can be controlled at both low and high deformations
Ren, Xianjie ren. "Improving sustainability of rubber composites with renewable additives and epoxidized guayule natural rubber". The Ohio State University, 2019. http://rave.ohiolink.edu/etdc/view?acc_num=osu1574440536318129.
Texto completo da fonteReis, Elton Aparecido Prado dos [UNESP]. "Preparação e caracterização de compósitos obtidos a partir de borracha natural com raspa de couro visando aplicações industriais". Universidade Estadual Paulista (UNESP), 2010. http://hdl.handle.net/11449/99697.
Texto completo da fonteFundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
Neste trabalho é apresentado o método de preparação dos compósitos obtidos a partir da mistura de borracha natural (BN) com raspa de couro, gerada em uma das etapas do tratamento do couro nos cortumes. Os compósitos foram obtidos utilizando o método de prensagem e quente, em diferentes proporções em massa (m%). Também será apresentada a proporção calculada a partir da quantidade de BN utilizada (phr) e a técnica usada para a incorporação dos agentes de vulcanização, realizadas para vulcanizar a BN presente na mistura. Os compósitos, que no presente trabalho serão denominados BN/Couro, foram caracterizados utilizando as técnicas de análises de propriedades mecânicas, análises morfológicas, análises estruturais e análises térmicas. Os resultados obtidos foram comparados em função das propriedades físicas dos compósitos com as do couro utilizado comercialmente, com objetivo de se efetuar um direcionamento para uma possível aplicação industrial e comercial dos compósitos. De acordo com os resultados constatou-se que o material apresenta baixa capacidade de deformação, causada pela vulcanização realizada na BN e também pelas partículas de couro. Notou-se também que os compósitos apresentam bom grau de impermeabilidade e desgaste, quando comparado ao couro sola utilizado comercialmente, sendo averiguado que esta propriedades são relacionadas à proporção de BN presente na mistura, que por sua vez atua como agente encapsulador do couro, tornando-se predominante no material produzido. O que investigou o desenvolvimento deste trabalho foi a pretensão de obter um material de baixo custo, pois será produzido a partir de um resíduo gerado às toneladas
This work presents the method of preparation of composites from a mixture of natural rubber (NR) with leather waste, generated in one step in the treatment of leather in tanneries. The composites were obtained using the method of hot pressing, in different proportions by mass (wt%). Also presented the ratio calculated from the amount of NR used (phr) and the technique used for incorporation of curing agents, taken to vulcanize the NR in the mixture. The composites, which in this work will be called NR/Leather, were characterized using the techniques of analysis of mechanical properties, morphological analysis, structural analysis and thermal analysis. The results were compared on the basis of the physical properties of the composities with the leather used commercially, with the objective to make a direction for a possible industrial application and commercial composites. According to the results found that the material has a low capacity for deformation caused by vulcanization perfomed in NR and also by the particles of leather. It was also noted that the composites exihibit a good degree of impermeability and wear when compared to leather soles used commercially, and ascertained that these properties are related to the proportion of BN in the mixture, which in turn acts as an agent wrapper of leather making is predominant in the material produced. What prompted the development of this work was the intention of obtaining a low cost material, which be produced from a waste generated by the ton
Daoud, Hajer. "Contribution à l'étude du comportement mécanique et vibratoire des composites biosourcés incorporant des matériaux fonctionnels". Thesis, Le Mans, 2018. http://www.theses.fr/2018LEMA1017/document.
Texto completo da fonteThis thesis focuses on the study of the mechanical and vibration behaviour of a flax fibre reinforced composites with and without an interleaved natural viscoelastic layer. The composite materials have been characterized experimentally using different mechanical and vibrational tests. First, both types of composites were studied using uni-axial tensile and three-points bending tests. Acoustic emission (AE) has been often used for the identification and characterization of micro failure mechanisms in composites. The results showed that these composites have very high specific characteristics. It can be used for applications currently using composites reinforced with synthetic fibres such glass, carbon…. Next, experimental and finite element vibration analyses were carried out on the composites with and without an interleaved natural viscoelastic layer. A good agreement between the two methods was obtained. It has been shown that the viscoelastic layer plays a major role in damping because it has a high level of energy dissipation. Therefore, it improves with a significant way the modal properties of the composite. Finally, nonlinear resonance tests were performed on the composites. It has been shown that the viscoelastic layer generates a nonlinear behaviour in the material. The linear and nonlinear, elastic and dissipative parameters have been calculated to deduce finally that nonlinear parameters are more sensitive to heterogeneities than those derived from linear vibration tests
Nikpour, Navid, e Navid Nikpour. "Production and characterization of natural fiber-polymer composites using ground tire rubber as impact modifier". Master's thesis, Université Laval, 2016. http://hdl.handle.net/20.500.11794/26699.
Texto completo da fonteCe travail porte sur la production et la caractérisation de matériaux composites hybrides basés sur un polymère thermoplastique (polyéthylène de haute densité, PEHD), une fibre naturelle (chanvre) et un caoutchouc recyclé provenant de pneus usés (GTR) comme modificateur d'impact. L'addition d'un agent de couplage (polyéthylène maléaté) est également étudiée. Les échantillons sont mélangés par extrusion à double-vis et fabriqués par un moulage en injection. À partir des échantillons obtenus, une caractérisation morphologique et mécanique complète est effectuée. Les résultats montrent que la bonne dispersion est obtenue en raison des bonnes conditions de mélanges sélectionnées et une bonne adhésion interfaciale entre toutes les phases est atteinte en raison de la présence d'anhydride maléique greffée au polyéthylène (MAPE). Enfin, pour des propriétés mécaniques choisies, des modèles de régression non-linéaire sont proposés pour prédire et contrôler les propriétés finales de ces composés par des comparaisons faites sur la base des propriétés de la matrice seule.
This work aims at the production and characterization of hybrid composites based on a thermoplastic polymer (high density polyethylene, HDPE), a natural fiber (hemp) as reinforcement and ground tire rubber (GTR) as an impact modifier. The addition of a coupling agent (maleated polyethylene) is also investigated. The samples are compounded by twin-screw extrusion and produced by injection molding. From the samples obtained, a complete morphological and mechanical characterization is performed. The results show that good dispersion is obtained due to the selected processing conditions and good interfacial adhesion between all the phases is achieved due to the presence of maleic anhydride grafted polyethylene (MAPE). Finally, for selected mechanical properties, nonlinear regression models are proposed to predict and control the final properties of these compounds and comparisons are made based on the neat matrix properties.
This work aims at the production and characterization of hybrid composites based on a thermoplastic polymer (high density polyethylene, HDPE), a natural fiber (hemp) as reinforcement and ground tire rubber (GTR) as an impact modifier. The addition of a coupling agent (maleated polyethylene) is also investigated. The samples are compounded by twin-screw extrusion and produced by injection molding. From the samples obtained, a complete morphological and mechanical characterization is performed. The results show that good dispersion is obtained due to the selected processing conditions and good interfacial adhesion between all the phases is achieved due to the presence of maleic anhydride grafted polyethylene (MAPE). Finally, for selected mechanical properties, nonlinear regression models are proposed to predict and control the final properties of these compounds and comparisons are made based on the neat matrix properties.
Livros sobre o assunto "Natural rubber composite"
Natural Rubber Materials : Volume 2: Composites and Nanocomposites. Royal Society of Chemistry, The, 2013.
Encontre o texto completo da fonteM, Visakh P. Natural Rubber Composites and Nanocomposites. Wiley & Sons, Incorporated, John, 2020.
Encontre o texto completo da fonteM, Visakh P. Natural Rubber-Based Composites and Nanocomposites. Wiley & Sons, Incorporated, John, 2023.
Encontre o texto completo da fonteM, Visakh P. Natural Rubber-Based Composites and Nanocomposites. Wiley & Sons, Incorporated, John, 2022.
Encontre o texto completo da fonteM, Visakh P. Natural Rubber-Based Composites and Nanocomposites. Wiley & Sons, Incorporated, John, 2022.
Encontre o texto completo da fonteHeinrich, Gert, Yukun Chen, Ali Ansarifar, Aldo Eloizo Job e Azanam S. Hashim. Natural Rubber Materials : Volume 2: Composites and Nanocomposites. Royal Society of Chemistry, The, 2013.
Encontre o texto completo da fonteCapítulos de livros sobre o assunto "Natural rubber composite"
Hayeemasae, Nabil, e Hanafi Ismail. "Halloysite Nanotubes-Filled Natural Rubber Composite". In Mineral-Filled Polymer Composites, 135–58. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003220947-7.
Texto completo da fonteHayeemasae, Nabil, e Hanafi Ismail. "Halloysite Nanotubes-Filled Natural Rubber Composite". In Mineral-Filled Polymer Composites, 111–34. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003220947-6.
Texto completo da fonteMustafa, Mohd Syamaizar, Sharifah Nafisah Syed Ismail, Shafeera Mohd Shaipul Amini, Nor Mazlina Abdul Wahab, Noor Aishatun Majid e Muhamad Naiman Sarip. "Pineapple Leaf Fibre Filled Natural Rubber Composite: The Effect of Filler Loading". In Charting the Sustainable Future of ASEAN in Science and Technology, 447–54. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-3434-8_38.
Texto completo da fonteChen, Ruey Shan, Jeefferie Abd Razak, Noraiham Mohamad e Sahrim Ahmad. "Surface Modification of Graphene Nanoplatelets (GNP) Towards Preparation of Natural/Synthetic Rubber Blend Nanocomposites". In Composite Materials: Applications in Engineering, Biomedicine and Food Science, 67–89. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45489-0_3.
Texto completo da fonteMuzakkar, M. Z., S. Ahmad, M. A. Yarmo, A. Jalar e M. Bijarimi. "Shear Strength of Single Lap Joint Aluminium-Thermoplastic Natural Rubber (Al-TPNR) Laminated Composite". In Recent Trends in Physics of Material Science and Technology, 159–71. Singapore: Springer Singapore, 2014. http://dx.doi.org/10.1007/978-981-287-128-2_10.
Texto completo da fonteÇakır Kabakcı, Gamze, Matthieu Sonar, Özgür Aslan e Emin Bayraktar. "Recycled Natural Rubber-Based Composites Reinforced with Nano Boron Nitride in Thermal Conductive and Electrical-Insulating Fields". In Mechanics of Composite, Hybrid & Multi-functional Materials, Volume 5, 7–15. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-17445-2_2.
Texto completo da fontePhatcharasit, Kritsada, e Wirach Taweepreda. "Improvement of the Mechanical Properties by Guar Gum Addition of Epoxidized Natural Rubber/Polyethylene Glycol Composite Membranes". In Lecture Notes in Mechanical Engineering, 235–42. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-0742-4_16.
Texto completo da fonteSreekumar, Parambath Madhom, Preetha Gopalakrishnan e Jean Marc Saiter. "Biofiber-Reinforced Natural Rubber Composites". In Polymer Composites, 289–315. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2013. http://dx.doi.org/10.1002/9783527674220.ch8.
Texto completo da fonteSurajarusarn, Budsaraporn, Nuttapong Hariwongsanupab, Gautier Schrodj, Samar Garreau, Karine Mougin e Taweechai Amornsakchai. "Enhancement of the Compatibility Between Natural Rubber and Pineapple Leaf Microfibers for Better Stress Transfer in Their Composite". In Recent Advances in Environmental Science from the Euro-Mediterranean and Surrounding Regions (2nd Edition), 441–46. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-51210-1_70.
Texto completo da fonteHayeemasae, Nabil, e Hanafi Ismail. "Comparative Studies of Natural Rubber/Virgin Ethylene Propylene Diene Rubber and Natural Rubber/Recycled Ethylene Propylene Diene Rubber and Natural Rubber/Blends". In Recycled Polymer Blends and Composites, 179–207. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-37046-5_9.
Texto completo da fonteTrabalhos de conferências sobre o assunto "Natural rubber composite"
"Effect of Surface Treated Biopolymer on Curing Behavior and Tensile Properties of Natural Rubber Composites". In Polymers/Composites/3Bs Materials 2023 International Joint Conference. SETCOR Conferences and Events, 2024. http://dx.doi.org/10.26799/cp-polymers-composites-3bsmaterials-2023/1.
Texto completo da fonteTan, Yi Wei, Ai Bao Chai, Kim Yeow Tshai, Jee Hou Ho, Shamsul Kamaruddin e Andri Andriyana. "Mechanical characteristics epoxidised natural rubber latex film". In INTERNATIONAL CONFERENCE ON RECENT TRENDS IN COMPOSITE SCIENCES WITH COMPUTATIONAL ANALYSIS. AIP Publishing, 2024. http://dx.doi.org/10.1063/5.0183151.
Texto completo da fonteDavid, N. V., X. L. Gao e J. Q. Zheng. "Creep Behavior of a TWARON®/Natural Rubber Composite". In ASME 2010 International Mechanical Engineering Congress and Exposition. ASMEDC, 2010. http://dx.doi.org/10.1115/imece2010-38079.
Texto completo da fonteJarnthong, Methakarn, Lusheng Liao, Fuquan Zhang, Yueqiong Wang, Puwang Li, Zheng Peng, Chutarat Malawet e Punyanich Intharapat. "Characterization of interaction between natural rubber and silica by FTIR". In 2ND INTERNATIONAL CONFERENCE ON COMPOSITE MATERIALS AND MATERIAL ENGINEERING (ICCMME 2017). Author(s), 2017. http://dx.doi.org/10.1063/1.4983595.
Texto completo da fonteLe, Minh-Tai. "Influence of Nanosilica in Mechanical Property of Natural Rubber Composite". In 2018 4th International Conference on Green Technology and Sustainable Development (GTSD). IEEE, 2018. http://dx.doi.org/10.1109/gtsd.2018.8595529.
Texto completo da fonteTorres, Renato, Anirudh Venugopalarao, Itamar Neckel, Rajarajan Ramalingame, Christian Muller e Olfa Kanoun. "Strain Sensor Based on MWCNT-Natural Rubber Composite for Wearable Electronics". In 2016 Nanotechnology for Instrumentation and Measurement (NANOfIM). IEEE, 2016. http://dx.doi.org/10.1109/nanofim.2016.8521434.
Texto completo da fonteMalawet, Chutarat, Methakarn Jarnthong, Punyanich Intharapat, Lusheng Liao, Fuquan Zhang, Yueqiong Wang, Puwang Li e Zheng Peng. "Utilization of oil palm ash as an reinforcing filler in natural rubber biocomposites". In 2ND INTERNATIONAL CONFERENCE ON COMPOSITE MATERIALS AND MATERIAL ENGINEERING (ICCMME 2017). Author(s), 2017. http://dx.doi.org/10.1063/1.4983596.
Texto completo da fonteSusilo, M., S. Arrohman, D. Ariawan, K. Diharjo e N. S. Suharty. "Tensile and tear properties of curly coconut fiber and natural rubber composite". In 1ST INTERNATIONAL SEMINAR ON ADVANCES IN METALLURGY AND MATERIALS (i-SENAMM 2019). AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0021605.
Texto completo da fonteGhani, Azlinda Abdul, Ragunathan Santiagoo, Chew Cui Min e Mustaffa Zainal. "Effect of epoxidized natural rubber-50 (ENR-50) as compatibilizer in composite". In THE PROCEEDING OF THE 1ST INTERNATIONAL CONFERENCE OF CHEMICAL SCIENCE, ENGINEERING AND TECHNOLOGY. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0117237.
Texto completo da fonteMache, Ashok, Aparna Kulkarni, Swapnil Shah, Adesh Gujar e Pravin Hujare. "Exploring Natural Frequency and Damping in Coir-Rubber Polymer Composites for Vibration Control in Mobility Vehicles". In WCX SAE World Congress Experience. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2024. http://dx.doi.org/10.4271/2024-01-2357.
Texto completo da fonte