Exploring the Influences of BaO Amount on the Wettability and Mechanical Behavior of Vitrified Bond Diamond Composites

Guo, Bingjian; Kuang, Haifeng; Liu, Xiaopan; Jiang, Hongyi; Tu, Rong; Yang, Meijun; Zhang, Song

doi:10.3390/ma17020339

Cited by 2 publications

(1 citation statement)

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“…Grinding tools consist of abrasives, bonds, and pores, among which the vitrified bond, which acts to bond abrasive grains, has an extremely important influence on the performance of the grinding tool [10][11][12]. Vitrified bonds can be divided into two types: traditional mineral bonds and vitreous bonds.…”

Section: Introductionmentioning

confidence: 99%

Research on Sol-Gel Synthesis of Low-Temperature Na2O-B2O3-SiO2 Vitrified Bonds and Preparation of High-Strength Stacked Abrasives Using the Molding and Crushing Method

Wang,

Liang,

et al. 2024

Materials

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Currently, the sol-gel technique is employed in the synthesis of high-performance vitrified bonds; however, its application in the fabrication of stacked abrasives has been minimally explored. Furthermore, the methods utilized in the production of abrasive particles for stacked abrasives are technically challenging and incur high costs, which hinders their actual industrial application. Consequently, this study utilizes the sol-gel approach to synthesize a Na2O-B2O3-SiO2 ternary system vitrified bond powder and employs a molding and crushing method, which offers a lower technological barrier and reduced preparation costs, for the production of abrasive particles subsequently fabricating corundum stacked abrasives. Upon setting the binder composition to a molar ratio of n(SiO2):n(B2O3):n(Na2O) = 65:23:12, it was observed that the crystallization within the glass matrix was minimized and the optimal sintering temperature for the synthesized laminate abrasive to be sustained at 820 °C. At the aforementioned temperature, the binder melt is capable of flowing uniformly amongst the abrasive granules, thereby ensuring a robust encapsulation of the particles. The average single particle compressive strength of the prepared corundum stacked abrasive with a grain size of forty mesh can reach the highest of all composition points at 28.56 N and the average single particle compressive strength of the prepared diamond stacked abrasive is 28.14 N.

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Section: Introductionmentioning

confidence: 99%