synthesis of a new nanosilica-based antioxidant and its
synthesis of a new nanosilica-based antioxidant and its
synthesis of a new nanosilica-based antioxidant and its
synthesis of a new nanosilica-based antioxidant and its
synthesis of a new nanosilica-based antioxidant and its
synthesis of a new nanosilica-based antioxidant and its

Synthesis of a New Nanosilica-Based Antioxidant and Its

Nanosilica was modified with a silane coupling agent 3-Glycidoxypro- pyltrimethoxysilane (KH-560) and then reacted with p-aminodiphenylamine (RT) to obtain a new nanosilica-based antioxidant. Fourier transform infrared and thermogravimetric (TGA) analysis measurements confirmed the successful grafting of RT to the nanosilica surface.

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synthesis of a new nanosilica-based antioxidant and its

Synthesis of a New Nanosilica-Based Antioxidant and Its

Synthesis of a New Nanosilica-Based Antioxidant and Its Influence on the Anti-Oxidation Performance of Natural Rubber January 2012 Journal of Macromolecular Science Part B Physics DOI:...

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synthesis of nanosilica©based immobile antioxidant and its

Synthesis of nanosilica©based immobile antioxidant and its

Nanosilica was successfully grafted with antioxidant intermediate p -aminodiphenylamine (RT) via silane coupling agent 3-glycidoxypropyltrimethoxysilane (KH-560), and the structures of product RT-silica were confirmed by Fourier transform infrared spectra (FTIR) and other methods. RT-silica exhibited excellent performance in many aspects.

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synthesis of nanosilica-based immobile antioxidant and its

Synthesis of nanosilica-based immobile antioxidant and its

Nanosilica was successfully grafted with antioxidant intermediate p-aminodiphenylamine (RT) via silane coupling agent 3-glycidoxypropyltrimethoxysilane (KH-560), and the structures of product RT-silica were confirmed by Fourier transform infrared spectra (FTIR) and other methods. RT-silica exhibited excellent performance in many aspects.

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synthesis and antioxidative properties in natural rubber of

Synthesis and antioxidative properties in natural rubber of

Synthesis of a new nanosilica-based antioxidant and its influence on the anti-oxidation performance of natural rubber J Macromol Sci Part B Phys , 52 ( 2013 ) , pp. 84 - 94 CrossRef View in Scopus Google Scholar

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synthesis of nanosilica-based immobile antioxidant and its

Synthesis of Nanosilica-Based Immobile Antioxidant and Its

Guo et al. [26] designed a kind of nanosilica-based immobile antioxidant to study its antioxidative efficiency in a rubber matrix. The results indicated that SBR filled with antioxidant

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thermal-oxidative effect of a co-condensed nanosilica-based

Thermal-oxidative effect of a co-condensed nanosilica-based

Firstly, SN-NH2-AO was prepared by immobilization of 3,5-di-tert-butyl-4-hydroxyphenylpropionic acid (AO) on the surface of co-condensed silica (SN-NH2) which was synthesized by co-hydrolysis and condensation of tetraethoxysilane and aminopropyltriethoxysilane. Compared with AO, SN-NH2-AO exhibited higher thermal stability.

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vulcanization and antioxidation effects of accelerator

Vulcanization and antioxidation effects of accelerator

In this work, a new kind of accelerator modified antioxidant denoted as BTC was synthesized successfully through a thiol-ene click reaction between accelerator 2-mercaptobenzothiazole (MBT) and antioxidant N- (4-anilino phenyl) maleic imide (MC).

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a novel method for preparation of nanosilica from bamboo

A novel method for preparation of nanosilica from bamboo

Synthesis of a New Nanosilica-Based Antioxidant and Its Influence on the Anti-Oxidation Performance of Natural Rubber H. Lei Guangsu Huang Gengsheng Weng Materials Science, Chemistry

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synthesis and aging properties of reactive antioxidant napm

Synthesis and aging properties of reactive antioxidant NAPM

Hangxin Lei, Guangsu Huang, Gengsheng Weng, Synthesis of a New Nanosilica-Based Antioxidant and Its Influence on the Anti-Oxidation Performance of Natural Rubber, Journal of Macromolecular Science, Part B, 10.1080/00222348.2012.695560, 52, 1, (84-94), (2012).

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