Aluminum-copper-lithium alloy with improved mechanical strength and toughness

The invention claimed is: 1. An aluminum-based wrought product that is rolled and has a thickness from 10-130 mm, said product comprising, in weight %: Cu: 3.5-3.7; Li: 0.9-1.2; Mg: 0.6-0.8; Zr: 0.05-0.18; Ag: 0.0-0.5; Mn: 0.0-0.5; Fe+Si≤0.20; Zn≤0.15; at least one element selected from the group consisting of: Ti: 0.01-0.15; Sc: 0.05-0.3; Cr: 0.05-0.3; Hf: 0.05-0.5; other elements ≤0.05 each and ≤0.15 total, remainder aluminum; wherein the composition is selected so as to obtain a density that is not more than 2.71 g/cm3, which in a rolled state, solution treated, quenched and aged so as to obtain a near-peak yield strength, has, at half-thickness, at least one of the following pairs of properties: for thicknesses from 10 to <30 mm: a yield strength Rp0.2(L)≥525 MPa and a toughness K1C (L−T)≥45 MPa√m, for thicknesses of 30 to <60 mm: a yield strength Rp0.2(L)≥525 MPa and a toughness K1C (L−T)≥43 MPa√m, for thicknesses of 60 to <100 mm: a yield strength Rp0.2(L)≥520 MPa and a toughness K1C (L−T)≥40 MPa√m, or for thicknesses of 100 to 130 mm, at half-thickness, a yield strength Rp0.2(L)≥510 MPa and a toughness K1C (L−T)≥37 MPa√m, and wherein at least two properties of the product do not change more than 5% after thermal exposure of 1000 hours at 85° C., the at least two properties selected from the group consisting of: tensile yield strength Rp0.2 (L), ultimate tensile stress UTS (Rm L), and an elongation at rupture A % (L). 2. A product according to claim 1 , wherein the magnesium content is from 0.65 to 0.8% by weight. 3. A product according to claim 1 , wherein the manganese content is from 0.2 to 0.4% by weight. 4. A product according to claim 1 , wherein the silver content is from 0.15 to 0.35% by weight. 5. A product according to claim 1 , wherein the iron and silicon contents are each at most 0.08% by weight and/or in wherein the zinc content is ≤0.05% by weight. 6. A product according to claim 1 , wherein the thickness is equal to at least 30 mm. 7. A structural element comprising a product according to claim 1 . 8. An aeronautical construction comprising a structural element of claim 7 . 9. An aeronautical construction according to claim 8 in which the structural element is an underwing or upper wing element of which skin and/or stringers can be obtained from the same starting product, a spar and/or a rib. 10. A product according to claim 1 , which in a rolled state, solution treated, quenched and aged so as to obtain a near-peak yield strength, has, at half-thickness, at least one of the following pairs of properties: for thicknesses from 10 to <30 mm: a yield strength Rp0.2(L)≥545 MPa and a toughness K1C (L−T)≥45 MPa√m, for thicknesses of 30 to <60 mm: a yield strength Rp0.2(L)≥545 MPa and a toughness K1C (L−T)≥43 MPa√m, for thicknesses of 60 to <100 mm: a yield strength Rp0.2(L)≥535 MPa and a toughness K1C (L−T)≥40 MPa√m, or for thicknesses of 100 to 130 mm, at half-thickness, a yield strength Rp0.2(L)≥525 MPa and a toughness K1C (L−T)≥37 MPa√m.