Aluminum alloy and method of manufacturing

What is claimed is: 1. An aluminum alloy for casting shaped aluminum alloy parts, the aluminum alloy comprising, by weight, 3-11% silicon (Si), 0.1-0.6% chromium (Cr), ≤0.15% iron (Fe), and ≤0.3% manganese (Mn), and wherein a weight ratio of chromium to iron and manganese, Cr:(Fe+Mn), in the aluminum alloy is greater than or equal to 1:1. 2. The aluminum alloy set forth in claim 1 wherein, after the aluminum alloy is solution heat treated, the aluminum alloy exhibits a multiphase microstructure including an aluminum matrix phase and a fine-grained AlCrSi dispersoid phase, and wherein the AlCrSi dispersoid phase exhibits a face centered cubic (fcc) crystal lattice structure and comprises, by weight, greater than 80% Al, Cr, and Si. 3. The aluminum alloy set forth in claim 2 wherein the AlCrSi dispersoid phase and the aluminum matrix phase exhibit a crystallographic orientation relationship between adjacent crystal grains, and wherein the crystallographic orientation relationship between the adjacent crystal grains is at least one of <001> Al //<111> AlCrSi , {200} Al //{4 4 0} AlCrSi or <001> Al //<1 1 0> AlCrSi , {200} Al //{333} AlCrSi . 4. The aluminum alloy set forth in claim 2 wherein the AlCrSi dispersoid phase comprises a plurality of AlCrSi dispersoid grains distributed throughout the aluminum matrix phase, and wherein the AlCrSi dispersoid grains have a mean grain diameter of less than or equal to 70 nm. 5. The aluminum alloy set forth in claim 2 wherein the AlCrSi dispersoid phase accounts for 0.3-2.0 vol. % of the aluminum alloy. 6. The aluminum alloy set forth in claim 2 wherein, after the aluminum alloy is solution heat treated, the multiphase microstructure of the aluminum alloy also includes an Al(Mn,Fe,Cr)Si dispersoid phase, and wherein the Al(Mn,Fe,Cr)Si dispersoid phase accounts for less than 0.2 vol. % of the aluminum alloy. 7. The aluminum alloy set forth in claim 1 comprising, by weight, 0.1-5% copper (Cu) and 0.1-1% magnesium (Mg), and wherein, after the aluminum alloy is solution heat treated and artificially aged, the aluminum alloy exhibits a multiphase microstructure including an aluminum matrix phase, a fine-grained AlCrSi dispersoid phase, and one or more Cu-containing precipitate phases. 8. The aluminum alloy set forth in claim 7 wherein the one or more Cu-containing precipitate phases include at least one of an AlCu precipitate phase and an AlCuMgSi precipitate phase. 9. The aluminum alloy set forth in claim 1 comprising, by weight: 5-9% silicon, 0.2-0.5% chromium, 0.3-1% copper, 0.3-0.5% magnesium, 0.05-0.2% titanium, 0.01-0.02% strontium, and aluminum as balance.