Calcium oxide-based ceramic core and preparation method thereof

The invention claimed is: 1. A CaO-based ceramic core, consisting materials as follows: 5˜15 wt % plasticizer with rare earth oxides-coated CaO powders for balance. 2. The CaO-based ceramic core according to claim 1 , further consisting of 0.01˜20 wt % mineralizer in the raw material. 3. The CaO-based ceramic core according to claim 2 , characterized in that the mineralizers are made of zirconia, yttiria, or zirconia and yttiria mixed in any weight ratio. 4. The CaO-based ceramic core according to claim 1 , characterized in that the plasticizer consists of 50˜80 wt % paraffin wax, 10˜40 wt % beeswax and 5˜10 wt % oleic acid. 5. The CaO-based ceramic core according to claim 1 , characterized in that the rare earth oxides-coated CaO powders are CaO coated with yttiria, or zirconia mixed with yttiria. 6. A method of making the CaO-based ceramic core according to claim 1 , characterized in that the method includes the following steps: Step 1: prepare rare earth oxides coated CaO powder; Step 2: stirring while heating the rare earth oxides-coated CaO powders with plasticizer to 50˜130° C. to make rare earth oxides-coated CaO-based ceramic cores; stirring while heating rare earth oxides-coated CaO powders, plasticizer and mineralizer to 50˜130° C. to make rare earth oxides-coated CaO-based ceramic cores; Step 3: shaping then sintering rare earth oxides-coated CaO-based ceramic cores with sintering temperature at 1100˜1600° C. for 0.5˜20 hrs. 7. The method according to claim 6 , characterized in that the Step 1 includes the following steps: First, prepare the CaO suspension: add the non-ionic surfactant to ethanol to get the mixed solution, make sure every 10 L ethanol contain 0.1˜1 kg non-ionic surfactant, add the CaO powder into the solution to form a suspension; Second, prepare the rare earth oxides precursor: mix the zirconium oxychloride and inorganic yttrium salt in any percentage to form the rare earth oxides precursor, weigh the zirconium oxychloride and inorganic yttrium salt, put them into the ethanol and heat the solution, then add hydrogen peroxide into the solution, sufficiently stir solution to form the rare earth oxides precursor No 1 solution; Third, add the rare earth oxides precursor solution into the CaO suspension, and stir them to attain NO. 2 mixed solution; Fourth, add the ammonia water solution into NO. 2 solution to adjust pH value to 8˜11, and attain NO. 3 mixed solution; Fifth, dry the NO. 3 mixed solution to get the powders; Sixth, sinter the powders to get the rare earth oxides-coated CaO powders. 8. The method according to claim 7 , characterized in that the non-ionic surfactant mentioned above is PEG, AEO, carbon-rich AEO, Polyoxyethylene fatty acid, Polyoxyethylene amine, or Polyoxyethylene amide. 9. The method according to claim 7 , characterized in that the inorganic yttrium salt is yttrium chloride or yttrium nitrate. 10. The method according to claim 7 , characterized in that the amount of added H 2 O 2 is 0.1˜0.5 kg per 10 L of the rare earth oxides precursor solution. 11. The method according to claim 7 , characterized in that the concentration of rare earth oxides precursor solution is 0.01˜22 mol/L. 12. The method according to claim 7 , characterized in that in the NO. 2 mixed solution, the mole ratio of rare earth oxides and CaO is 0.005˜9.5. 13. The method according to the claim 7 , characterized in that the sintering condition in the 6th step is 500˜1600° C., for 0.5˜20 hrs.