Manufacturing method of making aluminum alloy semi-finished product with improved microporosity

The invention claimed is: 1. A manufacturing method for an unwrought aluminum alloy semi-finished product optionally comprising a rolling slab and/or an extrusion billet, said method comprising: (i) preparing a molten metal bath of an alloy having a composition comprising, percentage by weight: Zn: 0-12 Cu: 0-6 Mg: 0-6 Li: 0-3 Ag: 0-1 Si<0.5 Fe<0.5 optionally at least one of Cr, Zr, Mn, Hf, Ti, Sc, V, B, with a content <0.5, remainder aluminum, (ii) treating with ultrasound said molten metal bath in a furnace and/or a vessel using an immersed device comprising at least one ultrasound transmitter, (iii) transferring said molten metal bath so treated to a solidification device, (iv) vertical direct chill semi-continuous casting said treated molten metal bath, wherein a duration elapsing between an end of said treating with ultrasound of the liquid metal bath and an introduction of said liquid metal bath in the solidification device is at least a few minutes and optionally comprises at least three minutes. 2. A manufacturing method for an unwrought aluminum alloy semi-finished product optionally comprising a rolling slab and/or an extrusion billet, said method comprising: (i) preparing a molten metal bath of an alloy having a composition comprising, percentage by weight: Zn: 0-12 Cu: 0-6 Mg: 0-6 Li: 0-3 Ag: 0-1 Si<0.5 Fe<0.5 optionally at least one of Cr, Zr, Mn, Hf, Ti, Sc, V, B, with a content <0.5, remainder aluminum, (ii) treating with ultrasound said molten metal bath in a furnace and/or a vessel using an immersed device comprising at least one ultrasound transmitter, (iii) transferring said molten metal bath so treated to a solidification device, (iv) vertical direct chill semi-continuous casting said treated molten metal bath, wherein a semi-finished product obtained by said method has at mid thickness, a density of micropores of a size greater than 90 μm, that is less than 50% of a density of micropores of a size greater than 90 μm obtained by a method that is identical to said method but does not includes said treating by ultrasound. 3. A method of claim 2 , wherein a semi-finished product obtained by said method has at mid thickness, a density of micropores of a size greater than 90 μm, that is less than 20% of a density of micropores of a size greater than 90 μm obtained by a method that is identical said method but does not include said treating by ultrasound.