Hassarutai Yangthong scite author profile

The main objective of this work was to investigate influence of natural rubber (NR) types on mechanical, thermal, morphological, and curing properties together with relaxation behavior of geopolymer filled NR composites with and without bis(triethoxysilylpropyl) tetrasulfide (TESPT) silane coupling agent. Three alternative types of NR: unmodified NR, and epoxidized NR with 25 (ENR-25) or 50 mol % epoxide (ENR-50) were exploited. Rubber compounds filled with GP particles were prepared in an internal mixer at 60 C and 130-150 C for the ones with and without TESPT, respectively. It was found that incorporation of GP significantly affected cure characteristics and mechanical properties of the rubber composites. That is, decreasing cure time was observed from 11.6, 3.2, and 7.0 min in gum NR, ENR-25, and ENR-50 to 6.9, 2.1, and 5.0 min in NR/GP, ENR-25/GP, and ENR-50/GP compounds, respectively. Furthermore, the ENR-25/GP and ENR-50/GP composites showed finely dispersed GP particles which indicate high fillerrubber interactions. The in situ silanization with TESPT in rubber composites enhanced the mechanical properties of NR/GP and ENR-25/GP composites but no such enhancement was found in the ENR-50/GP composite. This matched the observations of Payne effect, maximum tan δ, and stress relaxation properties of the composites. We found that the ENR-25/GP composites exhibited the best overall properties.

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Novel epoxidized natural rubber composites with geopolymers from fly ash waste

Yangthong

Wisunthorn

Pichaiyut

et al. 2019

Waste Management

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Novel natural rubber composites with geopolymer filler

et al. 2018

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The main objective of this study was to apply geopolymer (GP) particles as novelty fillers in natural rubber (NR) composites with various loadings (0, 10, 20, 30, and 40 phr). Influence of GP particles on cure characteristics, mechanical, dynamic, thermal, and morphological properties of the NR/geopolymer composites was investigated. It was found that incorporation of geopolymer particles significantly affected the cure characteristics and the mechanical properties. That is, faster curing was observed due to acceleration by metal oxide impurities. It was also found that 100% modulus and tensile strength increased with the addition of 10 phr GP. This is attributed to the physical interactions of GP particles with NR molecules. In addition, the Payne effect and improved thermal stability were also observed in the GP-filled NR composites. It was concluded that 10 phr of GP in NR composites might be suitable for some industrial applications. K E Y W O R D S composites, geopolymer, mechanical properties, natural rubber, thermal properties 2652 |

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Role of geopolymer as a cure activator in sulfur vulcanization of epoxidized natural rubber

Yangthong

Pichaiyut

Wisunthorn

et al. 2019

J of Applied Polymer Sci

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Geopolymer (GP) was synthesized and used as activators in sulfur vulcanization of epoxidized natural rubber (ENR). Influences of GP on cure characteristics, crosslink density, mechanical, thermal, and morphological properties were investigated and compared to the conventional rubber formulation with ZnO activator. The ZnO is a hazardous chemical for the environment and has proclaimed that its application in rubber technology should be reduced and controlled. It was found that the GP-activated ENR compounds showed significantly higher vulcanization rate than cases with the conventional ZnO compound. This was indicated by the GP activated compounds having shorter scorch time, cure times, and lower activation energy but higher cure rate index (CRI). Also, the GP activated ENR compounded with stearic acid exhibited the highest conversion. This matches well the highest torque difference and crosslink density, observed by temperature scanning stress relaxation (TSSR) and swelling measurements. Furthermore, the GP-activated vulcanizate had better thermal stability than the ZnO-activated ENR material. In addition, the GP-activated ENR vulcanizate with stearic acid exhibited high 100% moduli, tensile strength, and hardness. This proves that GP has a high potential for use as activators in sulfur vulcanization of rubber compounds, as an alternative to the conventional ZnO.

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The enhancement of cure and mechanical properties of natural rubber vulcanizates with waste Aquilaria crassna wood

Yangthong

Nun‐anan

Faibunchan

et al. 2021

Industrial Crops and Products

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