Hot dipped high manganese steel and manufacturing method therefor

1 . A hot dipped high manganese steel, comprising a steel substrate and a coating on a surface of the steel substrate, wherein the steel substrate has a core structure of austenite; the steel substrate has a skin layer which is a fine ferrite grain layer; the fine ferrite grain layer comprises an Al oxide, wherein the steel substrate comprises 10 to 30% Mn, 1 to 2% Al and 0.4 to 0.8% C by mass. 2 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a thickness of 0.2-5 μm. 3 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a grain size of ≤5 μm. 4 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a grain size smaller than a grain size of the austenite in the steel substrate. 5 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a Mn content lower than the Mn content in the steel substrate. 6 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a Mn content of ≤5%. 7 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a Mn content of ≤2%. 8 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has an Al content higher than the Al content in the steel substrate. 9 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has an Al content of >1%. 10 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has an Al content of <5%. 11 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a C content lower than the C content in the steel substrate. 12 . The hot dipped high manganese steel according to claim 1 , wherein the fine ferrite grain layer has a C content of ≤0.2%. 13 . The hot dipped high manganese steel according to claim 1 , wherein the coating has a thickness of 5-200 μm. 14 . The hot dipped high manganese steel according to claim 1 , wherein the hot dipped high manganese steel has a yield strength of 450-650 MPa, a tensile strength of 950-1100 MPa, and an elongation at break of at least 50%. 15 . A method for manufacturing the hot dipped high manganese steel of claim 1 , comprising the following steps: 1) Manufacturing a strip steel; 2) Primary annealing and pickling wherein the strip steel is heated on a continuous annealing production line to a soaking temperature of 600 to 750° C. for a soaking time of 30 to 600 s, wherein a mixed gas of N 2 and H 2 is used as an annealing atmosphere which has a H 2 content of 0.5-10% by volume and a dew point of −20 to +20° C.; subsequently, the strip steel is cooled to below 100° C. after the annealing, and pickled with an acid solution having a hydrogen ion concentration of 0.1-5%, wherein the acid solution has a temperature of 50-70° C., and a pickling time is 1 to 10 s; then, the strip steel is rinsed, dried and coiled; 3) Secondary annealing and hot dipping wherein the strip steel obtained in step (2) is subjected to secondary annealing and accomplishes hot dipping on a hot dipping production line, wherein the secondary annealing is performed at a soaking temperature of 600-850° C. for a soaking time of 60-360 s in an annealing atmosphere of a mixed gas of N 2 and H 2 , wherein the annealing atmosphere has a H 2 content of 2-10% by volume, and a dew point of −60 to +10° C.; subsequently, the strip steel is cooled to 380 to 500° C., and then immersed in a plating bath to perform the hot dipping. 16 . The method for manufacturing the hot dipped high manganese steel according to claim 15 , wherein the soaking temperature in step (2) is 600-700° C. 17 . The method for manufacturing the hot dipped high manganese steel according to claim 15 , wherein the soaking time in step (2) is 30-180 s. 18 . The method for manufacturing the hot dipped high manganese steel according to claim 15 , wherein the annealing atmosphere in step (2) has a dew point of −10 to +10° C. 19 . The method for manufacturing the hot dipped high manganese steel according to claim 15 , wherein the plating bath in step (3) comprises, in mass percentage, 0.1≤Al≤6%, 0<Mg≤5% and a balance of Zn and unavoidable impurities. 20 . The method for manufacturing the hot dipped high manganese steel according to claim 15 , wherein the annealing atmosphere in step (3) has a dew point of −60 to −20° C. 21 . The method for manufacturing the hot dipped high manganese steel according to claim 15 , wherein the plating bath in step (3) has a temperature of 420 to 480° C.