In-situ stress measurement method

1 . An in-situ stress measurement method for measuring three-dimensional stress elements acting on ground configuring the earth's crust, the method comprising: measuring a length of a maximum diameter (D max ) at which an amount of distortion relative to a diameter of a standard circle of a measurement cross section of a cylindrical boring core is largest and a length of a minimum diameter (D min ) at which the amount of distortion relative to the diameter of the standard circle is smallest based on a shape of the measurement cross section of the boring core, wherein the boring core is acquired by hollowing ground in a well located at a predetermined depth from the earth's surface out in an excavation direction of the well, and the measurement cross section of the boring core is set in a direction orthogonal to a longitudinal direction of the boring core; measuring a length of a diameter (d1| ϕ=0 ) in a vertical direction of a measurement cross section of a cylindrical first side-wall core and a length of a diameter (d1| ϕ=90 ) in a horizontal direction of the measurement cross section of the first side-wall core based on a shape of the measurement cross section of the first side-wall core, wherein the first side-wall core is acquired by hollowing the ground in the well located at the predetermined depth out from an inside surface of the well in a direction different from the excavation direction of the well, and the measurement cross section of the first side-wall core is set in a direction orthogonal to a longitudinal direction of the first side-wall core; and calculating a maximum horizontal stress (S Hmax ) and a minimum horizontal stress (S hmin ) among the three-dimensional stress elements by first and second equations, wherein the first equation represents a differential stress (ΔS) between a maximum horizontal stress (S Hmax ) and a minimum horizontal stress (S hmin ) acting on the ground at the predetermined depth, Δ   S = S Hmax - S hmin = E 1 + v · D max - D min D min the second equation represents a differential stress (Δσ|β 1 ) between a horizontal stress (σ θ ) and a vertical stress (σ v ) that act orthogonal to the longitudinal direction of the first side-wall core,  Δσ  | β ? =  1 2  ( S Hmax + S Hmin ) -  1 2  ( S Hmax - S hmin )  cos   2  ( β ? - α ) - S V =  E 1 + v · d   1  ? d min   ?  indicates text missing or illegible when filed