Multi-layer rolled composite board and manufacturing method therefor

What is claimed is: 1. A multilayer rolled clad plate comprising a transition layer between two adjacent cladding layers, and a substrate layer, wherein the transition layer is an anisotropic steel plate, wherein the thickness of each layer of the anisotropic steel plate is less than 5% of the total thickness of the multilayer rolled clad plate, wherein the anisotropic steel plate comprises the following chemical elements in weight percentages: C: 0.01-0.10%; Si: 0.01-0.5%; Mn: 0.5-2.5%; Al: 0.01-0.06%; Ti ≤ 0.06%; Cr ≤ 0.50%; Mo ≤ 0.30%; and a balance of Fe and unavoidable impurities; wherein the substrate layer is a mild steel or a high strength steel; wherein when the substrate layer is a mild steel, the mild steel comprises the following chemical elements in weight percentages: C: 0.0005-0.003%; Si: 0.001-0.01%; Mn: 0.1-0.5%; Al: 0.01-0.04%; Ti ≤ 0.06%; and a balance of Fe and unavoidable impurities; or the mild steel comprises the following chemical elements in weight percentages: C: 0.01-0.04%, Si: 0.01-0.05%; Mn: 0.1-0.5%; Al: 0.01-0.04%, and a balance of Fe and unavoidable impurities; wherein when the substrate layer is a high strength steel, the high strength steel comprises the following chemical elements in weight percentages: C: 0.1-0.3%; Si: 1.3-2.0%; Mn: 1.5-3.0%; Al: 0.01-0.05%; Ti: 0.01-0.03%; Mo ≤ 0.3%; and a balance of Fe and unavoidable impurities; or the high strength steel comprises the following chemical elements in weight percentages: C: 0.05-0.15%; Si: 0.1-0.4%; Mn: 1.5-3.0%; Al: 0.01-0.05%; Ti: 0.01-0.03%; Cr: 0.4-0.6%, Mo: 0.1-0.3%; and a balance of Fe and unavoidable impurities; and wherein the cladding layer is a mild steel, a high strength steel, a martensitic steel or a high precipitation strengthened steel; wherein when the cladding layer is mild steel, the mild steel comprises the following chemical elements in weight percentages: C: 0.0005-0.003%; Si: 0.001-0.01%; Mn: 0.1-0.5%; Al: 0.01-0.04%; Ti ≤ 0.06%; and a balance of Fe and unavoidable impurities; or the mild steel comprises the following chemical elements in weight percentages: C: 0.01-0.04%, Si: 0.01-0.05%; Mn: 0.1-0.5%; Al: 0.01-0.04%, and a balance of Fe and unavoidable impurities; wherein when the cladding layer is high strength steel, the high strength steel comprises the following chemical elements in weight percentages: C: 0.1-0.3%; Si: 1.3-2.0%; Mn: 1.5-3.0%; Al: 0.01-0.05%; Ti: 0.01-0.03%; Mo ≤ 0.3%; and a balance of Fe and unavoidable impurities; or the high strength steel comprises the following chemical elements in weight percentages: C: 0.05-0.15%; Si: 0.1-0.4%; Mn: 1.5-3.0%; Al: 0.01-0.05%; Ti: 0.01-0.03%; Cr: 0.4-0.6%, Mo: 0.1-0.3%; and a balance of Fe and unavoidable impurities; wherein when the cladding layer is martensitic steel, the martensitic steel comprises the following chemical elements in weight percentages: C: 0.2-0.3%; Si: 0.1-0.5%; Mn: 1.0-1.6%; Al: 0.01-0.25%; B: 0.001-0.005%; Ti ≤ 0.05%; Cr ≤ 0.3%; Mo ≤ 0.2%; and a balance of Fe and unavoidable impurities; wherein when the cladding layer is high precipitation strengthened steel, the high precipitation strengthened steel comprises the following chemical elements in weight percentages: C: 0.03-0.08%; Si: 0.1-0.4%; Mn: 1.0-1.5%; Al: 0.01-0.05%; Ti: 0.05-0.12%; and a balance of Fe and unavoidable impurities. 2. The multilayer rolled clad plate according to claim 1 , wherein the anisotropic steel plate is a cold rolled steel plate or a hot rolled acid-pickled steel plate. 3. The multilayer rolled clad plate according to claim 1 , wherein the anisotropic steel plate has an orientation degree that satisfies: 1.25 ≥ Al ≥1.05 before assembling a blank. 4. The multilayer rolled clad plate according to claim 1 , wherein the multilayer rolled clad plate comprises five layers, which, in order, are a cladding material layer, a transition layer, a substrate layer, a transition layer, and a cladding material layer, or comprises three layers, which, in order, are a cladding material layer, a transition layer, and a substrate layer; wherein the thickness of each of the substrate layers is 0.5-4.0 mm and the thickness of each of the cladding material layers is in the range of 0.05-0.4 mm. 5. The multilayer rolled clad plate according to claim 1 , wherein the multilayer rolled clad plate has a metallic or non-metallic plating layer on at least one surface. 6. The multilayer rolled clad plate according to claim 1 , wherein the anisotropic steel plate comprises the following chemical elements in weight percentages: C: 0.01-0.10%; Si: 0.01-0.4%; Mn: 1.0-2.3%; Al: 0.02-0.04%; Ti ≤ 0.05%; Cr ≤ 0.50%; Mo ≤ 0.30%; and a balance of Fe and other unavoidable impurities. 7. The multilayer rolled clad plate according to claim 1 , wherein the multilayer rolled clad plate comprises a substrate layer, a transition layer and a cladding material layer, wherein the C content of the transition layer is between that of the substrate layer and the cladding material layer. 8. A manufacturing method for the multilayer rolled clad plate according to claim 1 , wherein the manufacturing method comprises the following steps: (1) providing the transition layer between adjacent cladding layers and the substrate layer for assembling a blank, and vacuumizing between layers; (2) clad rolling: wherein the blank is heated to 1100-1260° C. and held for 0.5 hours or more, then hot-rolled at a temperature of Ar3 or more, wherein a final rolling temperature is controlled to be greater than 820° C., and after rolling, the blank is cooled at a rate of 30-100° C./s, and then coiled, and wherein the coiling temperature is controlled to be 20-750° C., wherein the thickness of each layer of the anisotropic steel plate is 0.5 to 10.0 mm. 9. The manufacturing method according to claim 8 , wherein the method further comprises Step (3) of cold rolling. 10. The manufacturing method according to claim 9 , wherein the method further comprises Step (4) of annealing: wherein the plate is soaked at a soaking temperature of 700-880° C., and then cooled at a rate of 3-20° C./s to a rapid cooling starting temperature of 600-780° C., and then cooled at a rate of 20-1000° C./s to 150-550° C. 11. The manufacturing method according to claim 10 , wherein the method further comprises Step (5) of tempering: wherein a tempering temperature is 150-550° C., and a tempering time is 100s-400s. 12. The manufacturing method according to claim 8 , wherein the method further comprises a step of leveling. 13. The manufacturing method according to claim 8 , wherein the anisotropic steel plate is a cold rolled steel plate or a hot rolled acid-pickled steel plate. 14. The manufacturing method according to claim 8 , wherein the anisotropic steel plate has an orientation degree that satisfies: 1.25 ≥ Al ≥1.05 before assembling a blank; or the anisotropic steel plate comprises the following chemical elements in weight percentages: C: 0.01-0.10%; Si: 0.01-0.4%; Mn: 1.0-2.3%; Al: 0.02-0.04%; Ti ≤ 0.05%; Cr ≤ 0.50%; Mo ≤ 0.30%; and a balance of Fe and other unavoidable impurities; or the multilayer rolled clad plate comprises a substrate layer, a transition layer and a cladding material layer, wherein the C content of the transition layer is between that of the substrate layer and the cladding material layer. 15. The manufacturing method according to claim 8 , wherein the multilayer rolled clad plate comprises one or more transition layers. 16. The manufacturing method according to claim 8 , wherein the multilayer rolled clad plate comprises a substrate layer, a transition layer located on one or both sides of the substrate l