Chemical and biochemical engineering quarterly | |
Abrasion Resistant thin Partially Stabilised Zirconia Coatings by Sol-gel Dip-coating | |
K. Grilec1  H. Ivanković1  J. Macan1  M. Ivanković1  | |
关键词: sol-gel; dip-coating; zirconia; thin coatings; tribology; | |
DOI : | |
来源: Croatian Society of Chemical Engineers | |
【 摘 要 】
Abstract Thin partially stabilised zirconia coatings were prepared by dip-coating from sols. Zr(O-nC4H9)4 was used as zirconia precursor in sol-gel synthesis, making use of yttria to stabilise the high-temperature zirconia modifications. The effect of synthesis parameters for sol, such as molar ratio of Zr(O-nC4H9)4, 2,4-pentadione, water and nitric acid on the stability of ZrO2 sols, was determined. The gelling time was largely extended from 0 to 4200 h by increasing the molar ratio of 2,4-pentadione to Zr(O-nC4H9)4 from 0 to 0.8. The acid displayed a marked catalytic and, combined with 2,4-pentadione, synergistic effects on the hydrolysis rate of Zr(O-nC4H9)4. Crystallographic analysis showed that only tetragonal zirconia crystallized at 673 K, and that it remains stable until ∼1173 K. Optical microscopy of thin zirconia coatings showed that increased firing temperature facilitated the grain growth of zirconia. The mechanical properties (microhardness and abrasion resistance) of the coating-substrate system also increased with increasing the firing temperature and viscosity of the coating solution.
【 授权许可】
Unknown
【 预 览 】
Files | Size | Format | View |
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RO201912090768763ZK.pdf | 578KB | download |