Xiaohang Liang scite author profile

The tribological behavior of PA66, PA66/Montmorillonite nanocomposites, and PA66/(SEBS-g-MA þ Montmorillonite) nanocomposites was studied by means of a ring-on-block tribometer. The morphologies of the worn surfaces of specimens were observed with scanning electron microscopy (SEM). Wear of all of the specimens increases with increasing load; meanwhile, the friction coefficient decreases. Wear of PA66/Montmorillonite is larger than that of PA66. Adding SEBS-g-MA to PA66/Montmorillonite improves the wear resistance. The friction coefficient of PA66/Montmorillonite is slightly less than that of PA66 at various loads. The friction coefficient of PA66/(SEBS-g-MA þ Montmorillonite) is the lowest.

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Improving Ti Incorporation into the BEA Framework by Employing Ethoxylated Chlorotitanate as Ti Precursor: Postsynthesis, Characterization, and Incorporation Mechanism

Liang

Peng

Xia

et al. 2021

Ind. Eng. Chem. Res.

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The liquid–solid postsynthetic method is commonly used in the preparation of metal-containing zeolites, for example, Ti-β (BEA) zeolite. This paper reports a facile and Ti incorporation improved liquid–solid impregnation method for Ti-β zeolite preparation by incorporating a unique Ti precursor, namely, partially ethoxylated chlorotitanate (Ti(Cl)4–n (OEt) n ), into the defects of dealuminated β zeolite. The Ti precursor was prepared from the reaction of TiCl4 and ethanol, and its structure was determined by visible Raman spectroscopy. The Ti species coordination state and distribution of synthesized Ti-β zeolite were analyzed by UV Raman, XPS, UV–vis, and TEM EDS mapping. The results suggest that most of the Ti species were incorporated into the BEA framework tetrahedrally and dispersed uniformly. The Ti-β zeolite synthesized by the improved method exhibits higher surface and bulk framework Ti content (94.4% and 65.3%, respectively) compared with Ti-β zeolites prepared through hydrothermal synthesis, dry impregnation, and ordinary liquid–solid impregnation method. Catalytic performance evaluation results of 1-hexene epoxidation reconfirmed the high framework content of Ti-β zeolite synthesized by the improved method. The function mechanism of this unique Ti precursor was provided based on TG-MS characterization results, and it suggests that Ti precursor with two types of substitution groups which show different reactivity would enhance the Ti incorporation into the zeolite framework.

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Xiaohang Liang

Understanding the mechanism of N coordination on framework Ti of Ti-BEA zeolite and its promoting effect on alkene epoxidation reaction

Effects of SEBS-g-MA on the Tribological Behavior of PA66/Montmorillonite Nanocomposites

Improving Ti Incorporation into the BEA Framework by Employing Ethoxylated Chlorotitanate as Ti Precursor: Postsynthesis, Characterization, and Incorporation Mechanism

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