Preparation method of magnesium oxide for insulated cable knob insulator, magnesium oxide and application of magnesium oxide
A technology of insulating cable ceramic column and magnesium oxide, applied in the direction of magnesium oxide, can solve the problems of long time consumption, long calcination time, and it is difficult to significantly reduce the cost of cable manufacturing, and achieve the effect of reducing energy consumption and weight.
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[0021] The invention provides a method for preparing magnesium oxide for insulating cable porcelain columns, comprising the following steps:
[0022] Step 1, calcining the raw material magnesia at a temperature of 1100-1200° C. to obtain light-burned magnesia;
[0023] Step 2, using the light-burned magnesia obtained in the step 1 to prepare light-burned magnesia with two particle sizes, which are light-burned magnesia with a particle size greater than 150 mesh and 80-150 mesh;
[0024] Step 3. Mix light-burned magnesia with a particle size greater than 150 mesh and 80-150 mesh to obtain magnesia for mineral insulated cable porcelain columns, wherein the amount of light-burned magnesia with a particle size greater than 150 mesh is the mineral insulated cable porcelain The column uses 3-5% of the total amount of magnesium oxide.
[0025] The light-burned magnesia with two particle sizes is mixed in a certain ratio, so that the gaps between the light-burned magnesia particles a...
Embodiment 1
[0040] The preparation method of magnesium oxide for insulating cable porcelain column comprises the following steps:
[0041] Step 1. Calcining the raw material magnesia at a temperature of 1150°C for 3 hours to obtain light-burned magnesia with a purity greater than 90%. The raw material magnesia is obtained by the following method: screening raw material magnesia with a diameter of less than 8mm from magnesite tailings , and then go through magnetic separation by strong magnetic machine;
[0042] Step 2, using the light-burned magnesia obtained in the step 1 to prepare light-burned magnesia with two particle sizes, which are light-burned magnesia with a particle size greater than 150 mesh and 80-150 mesh respectively. The specific process is as follows: The light-burned magnesia obtained in step 1 is ground to more than 50 mesh by Raymond Mill, and then the light-burned magnesia after grinding is screened by a grading vibrating sieve, and the sieving particle sizes of the g...
Embodiment 2
[0048] The preparation method of magnesium oxide for insulating cable porcelain column comprises the following steps:
[0049] Step 1. Calcining the raw magnesia at a temperature of 1180° C. for 3 hours to obtain light-burned magnesia with a purity greater than 90%. The raw magnesia is obtained by the following method: screening raw magnesia with a diameter of less than 8 mm from magnesite tailings , and then go through magnetic separation by strong magnetic machine;
[0050] Step 2, using the light-burned magnesia obtained in the step 1 to prepare light-burned magnesia with two particle sizes, which are light-burned magnesia with a particle size greater than 150 mesh and 80-150 mesh respectively. The specific process is as follows: The light-burned magnesia obtained in step 1 is ground to more than 50 mesh by Raymond Mill, and then the light-burned magnesia after grinding is screened by a grading vibrating sieve, and the sieving particle sizes of the grading vibrating sieve a...
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