Magnetization direction of ferromagnetic metal thin films deposited on a flexible substrate can be controlled by uniaxially stretching the substrate. If a tensile strain is induced by stretching it along the x axis, compressive strain is induced both in the y and z axes owing to the Poisson’s effect. In an fcc(111)-oriented Co film, the stretch-induced shrinkage in the out-of-plane direction is expected to induce a perpendicular magnetic anisotropy (PMA). Although a PMA modulation by uniaxial stretching has been reported for Pt/Co/Pt tri-layer structure, the induced PMA is much smaller than the in-plane magnetic anisotropy induced along the stretched direction. To apply a much larger perpendicular compressive strain without inducing the in-plane anisotropy, we utilize a biaxial stretching technique. As a result, we successfully demonstrate the stretch-induced magnetization easy axis switching from in-plane to out-of-plane in Pt/Co/Pt.