The Gaoligong and Chongshan shear zones (GLSZ and CSSZ) are N-S to NE-SW trending with low to high dipping in GLSZ and almost N-S trending with steep dipping in CSSZ in strike-slip shear zones in south-western Yunnan, China. Field data were measured to reconstruct the structural history of the GLGS and CSSZ . The 40Ar/39Ar thermo geochronology techniques were applied to reconstruct the thermo evolution of these shear zones. The structural and thermo history of the GLSZ and CSSZ are described below: The oldest ductile deformation event namely D1: The GLSZ forms a right-lateral with trust component listric mylonitic shear plane following the present trend of N-S and NE-SW. ; Whereas the CSSZ forms a left-lateral transverse fault with trust component during 27~19Ma. After the shear zones were formed, both shear zones transformed from deformation to brittle deformation during D2. Forming these thrust faults possibly during 19~10Ma. These thrust faults later developed into normal faults during D3 possibly from 10Ma to present. Base on the reconstructed cooling path, the timing of rapidly cooling event for the GLSZ(27.7~21.0Ma) is earlier than CSSZ(21.7-19.8Ma). Base on the structural history reconstructed, I propose that GLSZ was the western boundary of Indo-China extrusion during SE extrusion of Indo-China during 27-21Ma. ; The ceasing of GLSZ right-lateral by 21Ma probably indicate the western boundary of Indo-China extrusion migrated to the present boundary-Sagaing fault. Then the CSSZ and Sagaing fault began activate after 21-19Ma.