Method for making a porous calcium phosphate article
a technology articles, which is applied in the field of porous calcium phosphate articles, can solve the problems of insufficient micro/nano-sized porosity of porous hydroxyapatite (ha) block materials, hardly bioresorbable, and low strength of conventional biodegradable polymers for scaffold applications,
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example 1
Effect of KCl Content and Immersion Time on Compressive Strength of Porous CPC Block
[0064] To a setting solution of 1M phosphoric acid solution (pH=5.89) the ND-CPC powder from PREPARATIVE EXAMPLE 2 was added in a liquid / powder ratio (L / P ratio) of 0.4, i.e. 4 ml liquid / 10 g powder, while stirring. KCl powder in a predetermined amount was mixed to the resulting mixture by stirring intensively. The resulting paste was filled into a cylindrical steel mold having a length of 12 mm and a diameter of 6 mm, and was compressed with a gradually increased pressure until a maximum pressure of 3.5 MPa was reached. The maximum pressure was maintained for one minute, and then the compressed CPC block was removed from the mold. At the 15th minute following the mixing of the liquid and powders, the compressed CPC block was immersed in a deionized water at 37° C. for 4 day, 8 days, and 16 days. The compressive strength of the specimens of the three different periods of immersion time was measured ...
example 2
Effect of KCl Content on Compressive Strength and Porosity of Porous CPC Block
[0066] The procedures of EXAMPLE 1 were repeated except that the immersion time was set at four days, and more KCl / CPC ratios by weight were chosen. The results are listed in Table 2.
TABLE 2KCl / CPC ratio byweightDry compressive strength (MPa)Porosity (vol %)*18.066.81.255.069.71.53.972.21.752.974.421.376.530.481.9
*Porosity (vol %) was measured by Archimedes' method. and calculated as in ASTM C830.
[0067] The results in Table 2 show that the porosity of the porous CPC block becomes greater as the KCl / CPC ratio by weight increases. Morphology of the porous CPC blocks prepared in this example with the KCl / CPC ratios by weight of 1.25, 1.5, 1.75 and 2.0 shows macro and micro-pores, which were observed with SEM.
example 3
Effect of KCl Content and Heat Treatment on Dry Compressive Strength of Porous CPC Block
[0068] The procedures of EXAMPLE 1 were repeated except that the immersing time was set at 4 days and the resulting porous CPC block was heat treated. The heat treatment included placing the porous CPC block in an oven at 50° C. for 1 day; and then heating the dried porous CPC block in a furnace at the temperature and for a period of time set in Table 3 with a heating rate of 10° C. / min. The compressive strength was measured after cooling of the heated CPC block. The conditions and results are listed in Table 3.
TABLE 3KCl / CPC ratio byDry compressive strengthweightHeat treatment conditions(MPa)1No7350° C., 1 hr8.5350° C., 2 hrs9.61.5No3.9400° C., 2 hr4.6
[0069] The data in Table 3 show that the heat treatment can enhance the dry compressive strength of the porous CPC block.
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