摘要
To simulate the piezoelectric effect of nature bone, two kinds of biological piezoelectric composite ceramics consisted of hydroxyapatite ( HA ) and lithium sodium potassium niobate (LNK) ceramic of which the ratio of HA/LNK was 1 : 10 and 5 : 5( wt/ wt ) were prepared. Their piezoelectric property and growth of apatite crystal in the ceramics surface were investigated. With the increase of LNK amount, piezoelectric activity increased correspondingly. By immersing the poled piezoelectric ceramics in simulated body fluid (SBF) at 36.5 ℃ for 7, 14, and 21 days, apatite crystal was formed on negatively charged surfaces. After 21 days immersion in SBF, the thickest apatite crystal on the negatively charged surfaces increased to 3. 337 μn. The hotel biological piezoelectric ceramics show an excellent piezoelectric property and superior potential bioactivity.
To simulate the piezoelectric effect of nature bone, two kinds of biological piezoelectric composite ceramics consisted of hydroxyapatite ( HA ) and lithium sodium potassium niobate (LNK) ceramic of which the ratio of HA/LNK was 1 : 10 and 5 : 5( wt/ wt ) were prepared. Their piezoelectric property and growth of apatite crystal in the ceramics surface were investigated. With the increase of LNK amount, piezoelectric activity increased correspondingly. By immersing the poled piezoelectric ceramics in simulated body fluid (SBF) at 36.5 ℃ for 7, 14, and 21 days, apatite crystal was formed on negatively charged surfaces. After 21 days immersion in SBF, the thickest apatite crystal on the negatively charged surfaces increased to 3. 337 μn. The hotel biological piezoelectric ceramics show an excellent piezoelectric property and superior potential bioactivity.
基金
Fundedbythe"863"ProgramofChina(2002AA326080)