Powder coating compositions capable of having a substantially non-zinc containing primer

We claim: 1. A composite coating system comprising: a corrosion resistant primer formed from an epoxy thermoset primer composition that includes an epoxy resin with the proviso that the epoxy resin does not have an EEW of 860 to 930, and a polyhydroxyl functional phenolic curing agent having a HEW of 200 to 500, a platy filler, wherein said epoxy thermoset primer is substantially zinc-free; and a topcoat, and wherein the topcoat is formed from an epoxy thermoset topcoat composition that includes an epoxy resin having an EEW of 450 to 1400, an elastomer-modified epoxy resin having an EEW of 1000 to 1600, a foaming agent that is p,p′-oxybis(benzenesulfonylhydrazide), activated azodicarbonamide based compositions, or a p-toluenesulfonylhydrazide based foaming agents, and a reinforcing fiber, wherein the epoxy resin in the epoxy resin thermoset topcoat composition is a bisphenol A epoxy resin present in an amount from 10 to 85 parts per hundred resin. 2. The composite coating system of claim 1 , wherein the epoxy topcoat further comprises a carboxyl functional polyester resin with an acid number of 25 to 85 mg KOH/g. 3. A high tensile steel alloy coated by the composite coating of claim 2 . 4. The composite coating system of claim 1 , wherein the epoxy resin of the epoxy thermoset primer composition has an EEW of between 730 and 1400 with proviso that the epoxy resin of the epoxy thermoset primer composition does not have an EEW of between 860 and 930 or wherein the epoxy resin of the epoxy thermoset primer composition has an EEW of between 780 and 900 with the proviso that the epoxy resin of the epoxy thermoset primer composition does not have an EEW of between 860 and 930. 5. The composite coating system of claim 1 , wherein the epoxy resin of the epoxy thermoset primer composition has an EEW of between 730 and 820, an EEW of between 1250 and 1400, an EEW of between 750 and 850. 6. The composite coating system of claim 1 , further comprising a cure accelerator that includes 2-methylimidazole. 7. The composite coating system of claim 1 , wherein the platy filler includes complex aluminosilicate (mica), or magnesium silicate (talc), or a combination thereof. 8. The composite coating system of claim 7 , wherein the platy filler includes complex aluminosilicate (mica) present in an amount from 10 to 40 phr and with a median particle size of from 10 to 35 microns. 9. The composite coating system of claim 7 , wherein the platy filler further includes glass flakes having a nominal thickness of 1.3-2.3 microns. 10. The composite coating system of claim 7 , wherein the platy filler includes magnesium silicate (talc) present in an amount of from 10 to 40 phr and with a median particle size of from 10 to 35 microns. 11. The composite coating system of claim 1 , wherein said elastomer-modified epoxy resin comprises a bisphenol A epoxy resin present in an amount from 5 to 35 parts per hundred resin. 12. The composite coating system of claim 1 , wherein the epoxy thermoset primer contains zero zinc. 13. The composite coating system of claim 1 , wherein said reinforcing fiber comprises aluminosilicate, wollastonite, aramid, carbon, or a combination thereof. 14. A high tensile steel alloy coated by the composite coating of claim 1 .