High strength steel plate having low yield ratio excellent in terms of strain ageing resistance, method of manufacturing the same and high strength welded steel pipe made of the same

The invention claimed is: 1. A high strength steel plate having a low yield ratio, the steel plate having a chemical composition containing, by mass %, C: 0.03% or more and 0.08% or less, Si: 0.01% or more and 1.0% or less, Mn: 1.2% or more and 3.0% or less, P: 0.015% or less, S: 0.005% or less, Al: 0.08% or less, Nb: 0.005% or more and 0.07% or less, Ti: 0.005% or more and 0.025% or less, N: 0.010% or less, O: 0.005% or less and the balance being Fe and inevitable impurities, a metallographic structure including a three-phase structure of mainly a polygonal ferrite phase and a bainite phase in which island martensite is dispersed in surface portions within 5 mm from the upper and lower surfaces, and a duplex-phase structure of mainly a bainite phase in which island martensite is dispersed in a central portion which is other than the surface portions, wherein an area fraction of island martensite is 3% or more and 15% or less, wherein an equivalent circle diameter of the island martensite is 3.0 μm or less, wherein the area fraction of the polygonal ferrite phase in the surface portions is 10% or more and less than 80%, and wherein the remainder of the metallographic structure consists of a bainite phase, a hardness variation in a thickness direction of ΔHV30 or less in terms of Vickers hardness, a hardness variation in a width direction of ΔHV30 or less in terms of Vickers hardness, a maximum hardness in surface portions of the steel plate of HV230 or less in terms of Vickers hardness and a yield ratio of 85% or less and an elongation of 22% or more in a full-thickness tensile test using a test piece having a shape in accordance with GOST standards. 2. The steel plate according to claim 1 , wherein the chemical composition further comprises, by mass %, one or more selected from among Cu: 0.5% or less, Ni: 1% or less, Cr: 0.5% or less, Mo: 0.5% or less, V: 0.1% or less, Ca: 0.0005% or more and 0.003% or less and B: 0.005% or less. 3. A method of manufacturing a high strength steel plate having a low yield ratio comprising: heating steel having the chemical composition according to claim 1 at a temperature of 1000° C. or higher and 1300° C. or lower, performing hot rolling under conditions such that cumulative rolling reduction ratio is 50% or more in a temperature range of 900° C. or lower, finishing hot rolling at a temperature equal to or higher than the Ar 3 transformation point, starting cooling when the temperature of the surface portions within 5 mm from the upper and lower surfaces is equal to or higher than (the Ar 3 transformation temperature −60° C.) and equal to or lower than the Ar 3 transformation point, performing the cooling at a cooling rate of 200° C./sec. or less in terms of a surface temperature of the steel plate until the surface temperature becomes 600° C. or lower, performing the cooling at a cooling rate of 15° C./sec. or more in terms of the average temperature of the steel plate until the average temperature becomes 450° C. or higher and 650° C. or lower, and, immediately after the cooling has been performed, performing reheating at a heating rate of 1.0° C./sec. or more in terms of the surface temperature of the steel plate until the surface temperature becomes 550° C. or higher and 750° C. or lower. 4. A high strength welded steel pipe, the steel pipe being manufactured by forming the steel plate according to claim 1 into a cylindrical shape, by welding butted portions of the shaped cylinder under conditions such that single-layer welding is performed on each of the outer and inner surfaces, and by thereafter performing a pipe-expanding treatment under a condition of a pipe expanding ratio of 0.4% or more and 2.0% or less, and having a yield ratio of 90% or less and an elongation of 20% or more in a full-thickness tensile test using a test piece having a shape in accordance with GOST standards and, further having a yield ratio of 90% or less and an elongation of 20% or more even after a strain ageing treatment has been performed under conditions such that the temperature is 250° C. or lower and the duration is 30 minutes or less. 5. A method of manufacturing a high strength steel plate having a low yield ratio comprising: heating steel having the chemical composition according to claim 2 at a temperature of 1000° C. or higher and 1300° C. or lower, performing hot rolling under conditions such that the cumulative rolling reduction ratio is 50% or more in a temperature range of 900° C. or lower, finishing hot rolling at a temperature equal to or higher than the Ar 3 transformation point, starting cooling when the temperature of the surface portions within 5 mm from the upper and lower surfaces is equal to or higher than (the Ar 3 transformation temperature—60° C.) and equal to or lower than the Ar 3 transformation point, performing the cooling at a cooling rate of 200° C./sec. or less in terms of a surface temperature of the steel plate until the surface temperature becomes 600° C. or lower, performing the cooling at a cooling rate of 15° C./sec. or more in terms of the average temperature of the steel plate until the average temperature becomes 450° C. or higher and 650° C. or lower, and, immediately after the cooling has been performed, performing reheating at a heating rate of 1.0° C./sec. or more in terms of the surface temperature of the steel plate until the surface temperature becomes 550° C. or higher and 750° C. or lower. 6. A high strength welded steel pipe, the steel pipe being manufactured by forming the steel plate according to claim 2 into a cylindrical shape, by welding butted portions of the shaped cylinder under conditions such that single-layer welding is performed on each of the outer and inner surfaces, and by thereafter performing a pipe-expanding treatment under a condition of a pipe expanding ratio of 0.4% or more and 2.0% or less, and having a yield ratio of 90% or less and an elongation of 20% or more in a full-thickness tensile test using a test piece having a shape in accordance with GOST standards, and, further having a yield ratio of 90% or less and an elongation of 20% or more even after a strain ageing treatment has been performed under conditions such that the temperature is 250° C. or lower and the duration is 30 minutes or less.