Chemically strengthened glass

The invention claimed is: 1. A chemically strengthened glass, wherein: a CT 1 obtained by formula (1) and an internal tensile stress CT 5 obtained by formula (5) satisfy CT 5 /CT 1 ≤0.85; the internal tensile stress CT 5 is 30 MPa or more; a compressive stress value at a depth of a half value of the compressive stress depth DOL from the surface of the chemically strengthened glass is 10% or less of the surface compressive stress CS; when a sheet thickness of the chemically strengthened glass is t (μm), the CT 1 satisfies CT 1 >−38.7×ln(t/1000)+48.2 [MPa]; and an internal energy density rE obtained by formula (6) satisfies rE≤23.3×t/1000+15 [kJ/m 2 ]: CT 1 = CS × DOL ( t - 2 × DOL ) ( 1 ) CT 5 = 2 × ∫ 0 DOL ⁢ σ ⁡ ( x ) ⁢ dx ( t - 2 × DOL ) ( 5 ) rE = CT 5 × ( t - 2 × DOL ) 2 1000 × t ( 6 ) wherein CS is a surface compressive stress value [MPa] of the chemically strengthened glass, σ (x) is a compressive stress value [MPa] at a position x in a depth direction from a surface of the chemically strengthened glass, DOL is a compressive stress depth [μm] of the chemically strengthened glass, and t is a sheet thickness [μm] of the chemically strengthened glass. 2. The chemically strengthened glass according to claim 1 , wherein the surface compressive stress CS is 600 MPa or more. 3. The chemically strengthened glass according to claim 1 , wherein the compressive stress depth DOL is 30 μm or more. 4. The chemically strengthened glass according to claim 1 , wherein the sheet thickness t is 1500 μm or less. 5. The chemically strengthened glass according to claim 1 , wherein a position HW having a compressive stress being a half value of the surface compressive stress CS is a position less than 8 μm from the surface of the chemically strengthened glass. 6. The chemically strengthened glass according to claim 1 , wherein the internal tensile stress CT 5 satisfies CT 5 >−38.7×ln(t/1000)+48.2 [MPa]. 7. The chemically strengthened glass according to claim 1 , wherein the internal tensile stress CT 5 [MPa] is 1.1 times or more a CT limit value [MPa] obtained by formula (2): CT limit =−38.7×ln( t/ 1000)+48.2  (2), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 8. The chemically strengthened glass according to claim 1 , wherein the internal tensile stress CT 5 [MPa] is 1.1 times or more a CT limit value [MPa] obtained by formula (4): CT limit =−36.7×ln( t/ 1000)+48.7  (4), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 9. The chemically strengthened glass according to claim 1 , wherein the CT 1 [MPa] is 1.1 times or more a CT limit value [MPa] obtained by formula (2): CT limit =−38.7×ln( t/ 1000)+48.2  (2), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 10. The chemically strengthened glass according to claim 1 , wherein the CT 1 [MPa] is 1.1 times or more a CT limit value [MPa] obtained by formula (4): CT limit =−36.7×ln( t/ 1000)+48.7  (4), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 11. The chemically strengthened glass according to claim 1 , wherein the internal tensile stress CT 5 [MPa] is 1.5 times or more a CT limit value [MPa] obtained by formula (2): CT limit =−38.7×ln( t/ 1000)+48.2  (2), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 12. The chemically strengthened glass according to claim 1 , wherein the internal tensile stress CT 5 [MPa] is 2.0 times or more a CT limit value [MPa] obtained by formula (2): CT limit =−38.7×ln( t/ 1000)+48.2  (2), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 13. The chemically strengthened glass according to claim 1 , wherein the internal tensile stress CT 5 [MPa] is 3.0 times or more a CT limit value [MPa] obtained by formula (2): CT limit =−38.7×ln( t/ 1000)+48.2  (2), wherein t is the sheet thickness [μm] of the chemically strengthened glass. 14. The chemically strengthen