Electrical steel strip that can be but doesn't have to be reannealed

The invention claimed is: 1. A process for producing a non-grain-oriented electrical steel strip or sheet, comprising: (A) Providing a hot-rolled strip containing, apart from iron and unavoidable impurities in % by weight: up to 0.0040 of C, from 0.1500 to 0.3000 of Mn, from 2.300 to 2.700 of Si, from 0.3000 to 0.8000 of Al, up to 0.0400 of P, up to 0.0035 of S, up to 0.0070 of N and up to 0.0070 of Ti, (B) Cold rolling of the hot-rolled strip to give a cold-rolled strip; (C) Final heat treating of the cold-rolled strip from step (B) at a temperature of from 750 to 950° C. to give the non-grain-oriented electrical steel strip or sheet; (D) Subsequent to the final heat treating, cooling the non-grain-oriented electrical strip or sheet to ambient temperature; (E) Subsequent to the cooling from step (D), reference heat treating of the non-grain-oriented electrical steel strip or sheet at a temperature of from 600 to 1000° C.; and subsequent to the final heat treating of step (C) and prior to the reference heat treating of step (E), performing a parting process including selected from one of cutting, stamping and laser cutting on the non-grain-oriented electrical strip or sheet, wherein the reference heat treating of step (E) repairs damage arising at parting edges on the non-grain-oriented electrical strip or sheet resulting from the parting process; wherein a yield point Rp 0.2 in the non-grain-oriented electrical steel strip or sheet subsequent to step (E) is 300 to 399 N/mm 2 ; wherein a ratio of magnetic loss P 1.0/50 of the non-grain-oriented electrical strip or sheet subsequent to the final heat treating of step (C) to magnetic loss P 1.0/50 of the non-grain-oriented electrical strip or sheet subsequent to the reference heat treating of step (E) is at least 1.30. 2. A process for producing a non-grain-oriented electrical steel strip or sheet, comprising: (A) Providing a hot-rolled strip containing, apart from iron and unavoidable impurities in % by weight: up to 0.0040 of C, from 0.1500 to 0.3000 of Mn, from 2.300 to 2.700 of Si, from 0.3000 to 0.8000 of Al, up to 0.0400 of P, up to 0.0035 of S, up to 0.0070 of N and up to 0.0070 of Ti, (B) Cold rolling of the hot-rolled strip to give a cold-rolled strip; (C) Final heat treating of the cold-rolled strip from step (B) at a temperature of from 750 to 950° C. to give the non-grain-oriented electrical steel strip or sheet; (D) Subsequent to the final heat treating, cooling the non-grain-oriented electrical strip or sheet to ambient temperature; (E) Subsequent to the final heat treating, performing a parting process selected from one of cutting, stamping and laser cutting on the non-grain-oriented electrical strip or sheet; (F) Using first portions of the non-grain-oriented electrical steel strip or sheet as a rotor in a first electric machine; (G) Reference heat treating of remaining second portions of the non-grain-oriented electrical steel strip or sheet at a temperature of from 600 to 1000° C. wherein the reference heat treating repairs damage arising at parting edges on the non-grain-oriented electrical strip or sheet resulting from the parting process, wherein the reference heat treating of step (G) repairs damage arising at parting edges from step (E) on the non-grain-oriented electrical strip or sheet resulting from the parting process; and (H) Using the second portions of the non-grain-oriented electrical steel strip or sheet as a stator in one of the first electric machine and a second electric machine; wherein the reference heat treated remaining second portions of the non-grain-oriented electrical steel strip or sheet has a yield point Rp 0.2 of 300 to 399 N/mm 2 ; wherein a ratio of magnetic loss P 1.0/50 of the non-grain-oriented electrical strip or sheet subsequent to the final heat treating of step (C) to magnetic loss P 1.0/50 of the non-grain-oriented electrical strip or sheet subsequent to the reference heat treating of step (G) is at least 1.30. 3. The process of claim 1 wherein the non-grain-oriented steel strip or sheet has a thickness of from 0.26 to 0.38 mm. 4. The process of claim 1 wherein subsequent to the reference heat treating, the non-grain-oriented electrical steel strip or sheet has a grain size of from 50 to 130 μm. 5. The process of claim 1 wherein a ratio of magnetic loss P 1.5/50 in the non-grain-oriented electrical steel strip or sheet subsequent to the final heat treating to magnetic loss P 1.5/50 and subsequent to the reference heat treating is at least 1.10. 6. The process of claim 1 , wherein a ratio of magnetic loss P 1.0/400 in the non-grain-oriented electrical steel strip or sheet subsequent to the final heat treating to magnetic loss P 1.0/400 and subsequent to the reference heat treating is at least 1.10. 7. The process of claim 1 , wherein a ratio of polarization J 2500/50 in the non-grain-oriented electrical steel strip or sheet subsequent to the final heat treating to polarization J 2500/50 and subsequent to the reference heat treating is at least 1.01. 8. The process of claim 1 wherein a tensile strength R m in the non-grain-oriented electrical steel strip or sheet subsequent to step (C) and before step (E) is from 480 to 600 N/mm 2 , and subsequent to step (E) is from 400 to 520 N/mm 2 . 9. The process of claim 1 wherein the reference heat treating comprises heating the non-grain-oriented electrical strip or sheet at a rate of at least 100° C./hr.