Preparation method of an antibacterial functionally graded porous ha-ag bone-filling scaffold with active interlayer
A functional gradient and interlayer technology, applied in medical science, prosthesis, tissue regeneration, etc., can solve the problem that high pore structure and high mechanical properties cannot coexist, and achieve controllable pore parameters, convenient operation and good biocompatibility. Effect
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Embodiment 1
[0024] (1) According to the mass percentage of hydroxyapatite (HA) 97% and Ag 3%, respectively weigh 100 nm hydroxyapatite (HA) powder and Ag powder, and put the above two powders into an agate ball mill jar Carry out ball milling, seal with alcohol, vacuumize to 20Pa, and then ball mill for 50 h, the obtained HA-Ag mixed powder is still placed in alcohol, and set aside;
[0025] (2) Mix the HA-Ag powder obtained in step (1) with NH 4 HCO 3 The powder was mixed in the mixer for 120min to obtain mixed powder A; the mass percentage of HA-Ag powder in mixed powder A was 95%, NH 4 HCO 3 The mass percentage of the powder is 5%, and the average particle size of the sieve is 100 μm.
[0026] (3) According to Sr powder 95%, NH 4 HCO 3 5% mass percentage of powder, respectively weigh Sr powder and NH 4 HCO 3 The powders were mixed in a mixer for 30 minutes to obtain mixed powder B.
[0027] (4) Weigh 10 g of hydroxyapatite HA powder with a purity of more than 99.7% and a partic...
Embodiment 2
[0032] (1) According to the mass percentage of hydroxyapatite HA 80% and Ag 20%, weigh 100 nm hydroxyapatite HA powder and Ag powder respectively, put the two powders into an agate ball mill jar for ball milling, and use alcohol After sealing, evacuate to 30Pa, then ball mill for 100 h, and the obtained HA-Ag mixed powder is still placed in alcohol, and set aside;
[0033] (2) Mix the HA-Ag mixed powder obtained in step (1) with NH 4 HCO 3 The powder was mixed in the mixer for 240min to obtain mixed powder A; the mass percentage of HA-Ag powder in the mixed powder was 75%, NH 4 HCO 3 The mass percentage of the powder is 25%, and the average particle size of the sieve is 700 μm.
[0034] (3) According to Sr powder 90%, NH 4 HCO 3 10% by mass of powder, weigh Sr powder and NH respectively 4 HCO 3 The powders were mixed in a mixer for 60 minutes to obtain mixed powder B.
[0035] (4) Weigh 20g of HA powder with a purity of more than 99.7% and a particle size of 100nm, rec...
Embodiment 3
[0040] (1) According to the mass percentage of hydroxyapatite HA 85% and Ag 15%, weigh 100 nm hydroxyapatite HA powder and Ag powder respectively, put the above two powders into an agate ball mill jar for ball milling, and use After sealing with alcohol, vacuumize to 25Pa, then ball mill for 80 h, the obtained HA-Ag mixed powder is still placed in alcohol, and set aside;
[0041] (2) Mix the HA-Ag powder obtained in step (1) with NH 4 HCO 3 The powder was mixed in the mixer for 200min to obtain mixed powder A; the mass percentage of HA-Ag powder in mixed powder A was 80%, NH 4 HCO 3 The mass percentage of the powder is 20%, and the mixed powder A is sieved with an average particle size of 500 μm.
[0042] (3) According to Sr powder 90%, NH 4 HCO 3 10% by mass of powder, weigh Sr powder and NH respectively 4 HCO 3 The powders were mixed in a mixer for 55 minutes to obtain mixed powder B.
[0043] (4) Weigh 15g of hydroxyapatite HA powder with a purity of more than 99.7%...
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