Cross-linked polyolefin separator and method for producing same

What is claimed is: 1. A method for manufacturing a crosslinked polyolefin separator, comprising: (S1) introducing a polyolefin, a diluting agent, an alkoxysilane containing a carbon-carbon double bonded group, an initiator and a crosslinking catalyst to an extruder, followed by mixing, and carrying out a reactive extrusion; (S2) molding and orienting a reactive extruded silane-grafted polyolefin composition in the form of an oriented sheet; (S3) extracting the diluting agent from the oriented sheet to obtain a porous membrane; (S4) thermally fixing the porous membrane to obtain a thermally fixed porous membrane; and (S5) crosslinking the thermally fixed porous membrane in the presence of water, wherein, in (S1), at least one of the initiator or the alkoxysilane containing a carbon-carbon double bonded group is introduced to the extruder in divided doses at a predetermined time interval and mixed in the extruder, and if the initiator is introduced and mixed in divided doses, then a weight ratio (A/B) of a total content (A) of the alkoxysilane containing the carbon-carbon double bonded group to a total content (B) of the initiator is 80-600, and if the alkoxysilane containing the carbon-carbon double bonded group is introduced and mixed in divided doses, then a first alkoxysilane containing the carbon-carbon double bonded group introduced initially to the extruder has a higher boiling point, as compared to a second alkoxysilane containing the carbon-carbon double bonded group introduced subsequently to the extruder. 2. The method for manufacturing the crosslinked polyolefin separator according to claim 1 , wherein the initiator comprises 2,5-dimethyl-2,5-di(tert-butylperoxy)hexane (DHBP), benzoyl peroxide, acetyl peroxide, dilauryl peroxide, di-tert-butyl peroxide, dicumyl peroxide, cumyl peroxide, hydrogen peroxide, potassium persulfate, or a mixture of at least two thereof. 3. The method for manufacturing a crosslinked polyolefin separator according to claim 1 , wherein: the diluting agent comprises a first diluting agent, a second diluting agent, and a third diluting agent, (S1) comprises: (S11) introducing the polyolefin and the first diluting agent to the extruder, followed by mixing; (S12) introducing the second diluting agent, the first alkoxysilane containing a carbon-carbon double bonded group, the initiator and the crosslinking catalyst to the extruder, followed by mixing; and (S13) introducing the third diluting agent and the second alkoxysilane containing a carbon-carbon double bonded group to the extruder, followed by mixing, and carrying out the reactive extrusion, wherein the first alkoxysilane containing the carbon-carbon double bonded group has a higher boiling point as compared to the second alkoxysilane containing the carbon-carbon double bonded group. 4. The method for manufacturing the crosslinked polyolefin separator according to claim 3 , wherein the first alkoxysilane containing the carbon-carbon double bonded group has a boiling point of 150-200° C., and the second alkoxysilane containing the carbon-carbon double bonded group has a boiling point of 70-140° C. 5. The method for manufacturing the crosslinked polyolefin separator according to claim 3 , wherein a weight ratio of the first alkoxysilane containing the carbon-carbon double bonded group to the second alkoxysilane containing the carbon-carbon double bonded group is 8:2-2:8. 6. The method for manufacturing the crosslinked polyolefin separator according to claim 3 , wherein a ratio of an elapsed time from the introducing of the first alkoxysilane containing the carbon-carbon double bonded group to the reactive extrusion based on an elapsed time from the introducing of the polyolefin to the reactive extrusion is 0.6-0.9. 7. The method for manufacturing the crosslinked polyolefin separator according to claim 3 , wherein a content of the first alkoxysilane containing the carbon-carbon double bonded group is 0.1-3.0 part by weight based on 100 parts by weight of a total content of the polyolefin, the first diluting agent, the second diluting agent and the third diluting agent. 8. The method for manufacturing the crosslinked polyolefin separator according to claim 3 , wherein a content of the second alkoxysilane containing the carbon-carbon double bonded group is 0.1-3.0 part by weight based on 100 parts by weight of a total content of the polyolefin, the first diluting agent, the second diluting agent and the third diluting agent. 9. The method for manufacturing the crosslinked polyolefin separator according to claim 3 , wherein (S5) is carried out at 60-90° C. under a relative humidity of 50-85% for 6-18 hours. 10. The method for manufacturing the crosslinked polyolefin separator according to claim 1 , wherein (S1) is carried out by introducing and mixing the initiator to the extruder in divided doses at a predetermined time interval, and the weight ratio (A/B) of the total content (A) of the alkoxysilane containing the carbon-carbon double bonded group to the total content (B) of the initiator is 80-600. 11. The method for manufacturing the crosslinked polyolefin separator according to claim 10 , wherein the alkoxysilane containing the carbon-carbon double bonded group comprises a compound represented by following Chemical Formula 1: wherein each of R 1 , R 2 and R 3 independently represents a C1-C10 alkoxy group or C1-C10 alkyl group, with the proviso that at least one of R 1 , R 2 or R 3 represents the C1-C10 alkoxy group; and R represents a vinyl group, acryloxy group, methacryloxy group, or a C1-C20 alkyl group, wherein at least one hydrogen atom of the alkyl group is substituted with a vinyl group, acryl group, or methacryl group. 12. The method for manufacturing the crosslinked polyolefin separator according to claim 10 , wherein, in (S1), the initiator along with at least one of the diluting agent, the alkoxysilane containing a carbon-carbon double bonded group or the crosslinking catalyst is introduced to the extruder and mixed in divided doses at the predetermined time interval. 13. The method for manufacturing the crosslinked polyolefin separator according to claim 12 , wherein (S1) comprises: introducing the polyolefin to the extruder; introducing a pre-introduced composition containing a part of the diluting agent, a part of the initiator, a part of the alkoxysilane containing the carbon-carbon double bonded group and a part of the crosslinking catalyst to the extruder, followed by mixing; and introducing a post-introduced composition containing a remaining part of the diluting agent, a remaining part of the initiator, a remaining part of the alkoxysilane containing the carbon-carbon double bonded group and a remaining part of the crosslinking catalyst to the extruder at the predetermined time interval, followed by mixing, and then carrying out the reactive extrusion, wherein a weight ratio (a/b) of (a) the part of the alkoxysilane containing the carbon-carbon double bonded group to (b) the part of the initiator in the pre-introduced composition is 100-700, and a weight ratio (c/d) of (c) the remaining part of the alkoxysilane containing the carbon-carbon double bonded group to (d) the remaining part of the initiator in the post-introduced composition is smaller than the weight ratio (a/b). 14. The method for manufacturing the crosslinked polyolefin separator according to claim 13 , wherein the weight ratio (c/d) of the remaining part of the alkoxysilane (c) containing the carbon-carbon double bonded group t