980mpa grade cold-roll steel sheets with high hole expansion rate and higher percentage elongation and manufacturing method therefor

1 . A 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation, wherein the steel sheet has a chemical composition based on mass percentage of: C: 0.08%-0.12%, Si: 0.1%-1.0%, Mn: 1.9%-2.6%, Al: 0.01%-0.05%, Cr: 0.1-0.55%, Mo: 0.1-0.5%, Ti: 0.01-0.1%, and a balance of Fe and other unavoidable impurities, wherein the following relationships are satisfied: 1.8≥5×[C]+0.4×[Si]+0.1×([Mn]+[Cr]+[Mo]) 2 ≥1.3, [Mo]≥3×[Ti]. 2 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the C content is 0.09%-0.11%. 3 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the Si content is 0.4%-0.8%. 4 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the Mn content is 2.1%-2.4%. 5 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the Al content is 0.015%-0.045%. 6 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the Cr content is 0.2%-0.4%. 7 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the Mo content is 0.2%-0.3%. 8 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the Ti content is 0.02%-0.05%. 9 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein 1.45≤5×[C]+0.4×[Si]+0.1×([Mn]+[Cr]+[Mo]) 2 ≤1.7. 10 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the cold-rolled steel sheet has a microstructure of ferrite+bainite+martensite, wherein ferrite has a volume fraction of greater than 10%; bainite has a volume fraction of greater than 30%; martensite has a volume fraction of greater than 15%; wherein the microstructure further comprises uniformly and dispersively distributed nano-scale precipitates having an average size of less than 20 nm. 11 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 10 , wherein the microstructure of the cold-rolled steel sheet is ferrite+bainite+martensite, wherein ferrite has a volume fraction of greater than 10% to 30%; bainite has a volume fraction of 35-75%; and martensite has a volume fraction of greater than 15% to 35%. 12 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the cold-rolled steel sheet has a yield strength of greater than 600 MPa, a tensile strength of greater than 980 MPa, an elongation of greater than 11%, and a hole expansion rate of ≥45%. 13 . A manufacturing method for the 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein the method comprises the following steps: 1) smelting and casting the composition in claim 1 into a blank; 2) first heating to 1150-1250° C., holding for 0.5 hours or more, hot-rolling at a temperature above Ar3, cooling rapidly at a rate of 30-100° C./s after rolling, and coiling at a temperature: 600-750° C.; 3) controlling a cold rolling reduction rate at 30-70%; 4) in an annealing process, soaking at a soaking temperature of 810-870° C. for a holding time of 50-100 s; then cooling at a rate of 3-10° C./s to a start temperature of rapid cooling which is 660-730° C.; and then cooling at a rate of 30-200° C./s to 200-460° C.; and 5) over-aging at an over-aging temperature of 320-460° C. for an over-aging time of 100-400 s. 14 . The manufacturing method for the 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 13 , further comprising step 6) flattening, wherein a flattening rate of 0.05-0.3% is used. 15 . The manufacturing method for the 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 13 , wherein in step 2), the holding time is 0.5-3 hours; in step 3), the cold rolling reduction rate is controlled at 50-70%; in step 4), an annealing temperature is 820-870° C.; the holding time of the soaking is 50-90 s; and the cooling is conducted at a cooling rate of 50-200° C./s to 320-460° C. 16 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 1 , wherein: the C content of the 980 MPa grade cold-rolled steel sheet is 0.09%-0.11%; the Si content of the 980 MPa grade cold-rolled steel sheet is 0.4%-0.8%; the Mn content of the 980 MPa grade cold-rolled steel sheet is 2.1%-2.4%; the Al content of the 980 MPa grade cold-rolled steel sheet is 0.015%-0.045%; the Cr content of the 980 MPa grade cold-rolled steel sheet is 0.2%-0.4%; the Mo content of the 980 MPa grade cold-rolled steel sheet is 0.2%-0.3%; and the Ti content of the 980 MPa grade cold-rolled steel sheet is 0.02%-0.05%. 17 . The 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 16 , wherein: the cold-rolled steel sheet has a microstructure of ferrite+bainite+martensite, wherein ferrite has a volume fraction of greater than 10%; bainite has a volume fraction of greater than 30%; martensite has a volume fraction of greater than 15%; wherein the microstructure further comprises uniformly and dispersively distributed nano-scale precipitates having an average size of less than 20 nm; and the cold-rolled steel sheet has a yield strength of greater than 600 MPa, a tensile strength of greater than 980 MPa, an elongation of greater than 11%, and a hole expansion rate of ≥45%. 18 . The manufacturing method for the 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 13 , wherein: the C content of the 980 MPa grade cold-rolled steel sheet is 0.09%-0.11%; the Si content of the 980 MPa grade cold-rolled steel sheet is 0.4%-0.8%; the Mn content of the 980 MPa grade cold-rolled steel sheet is 2.1%-2.4%; the Al content of the 980 MPa grade cold-rolled steel sheet is 0.015%-0.045%; the Cr content of the 980 MPa grade cold-rolled steel sheet is 0.2%-0.4%; the Mo content of the 980 MPa grade cold-rolled steel sheet is 0.2%-0.3%; and/or the Ti content of the 980 MPa grade cold-rolled steel sheet is 0.02%-0.05%. 19 . The manufacturing method for the 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 13 , wherein the contents of C, Si, Mn, Cr and Mo of the 980 MPa grade cold-rolled steel shee satisfies: 1.45≤5×[C]+0.4×[Si]+0.1×([Mn]+[Cr]+[Mo]) 2 ≤1.7. 20 . The manufacturing method for the 980 MPa grade cold-rolled steel sheet having a high hole expansion rate and a high elongation according to claim 13 , wherein: the cold-rolled steel sheet has a microstructure of ferrite+bainite+martensite, wherein ferrite has a volume fraction of greater than 10%; bainite has a volume fraction of greater than 30%; martensite has a volume fraction of greater than 15%; wherein the microstructure further comprises uniformly and dispersively distributed nano-scale precipi