Measuring element made of steel with hardened edge zone

What is claimed is: 1. A steel measuring element, having a material edge zone, that deforms when subjected to alternating bending actions induced by alternating pressure loads, wherein the steel measuring element is made of a non-precipitation-hardenable austenitic chromium-nickel steel, the material edge zone is provided with increased strength, the hardness of the material edge zone has a Vickers hardness of at least 500 or 1.5 to 2 times the initial hardness of the basic material, and the material edge zone has a thickness of 2 to 50 micrometers, and the steel measuring element is provided on the inside and outside with the material edge zone that has increased strength and increased hardness. 2. The steel measuring element as set forth in claim 1 , wherein the steel measuring element is tubular, being round, oval or elliptical. 3. The steel measuring element as set forth in claim 2 , wherein the tubular steel measuring element is sealed with a welded closed end, and a measuring element carrier with a pressure port thread is mounted on the other end, and wherein a measuring element that drives an indicator in front of a scale is coupled with the welded-closed end. 4. The steel measuring element as set forth in claim 3 , wherein the steel measuring element can be loaded from one side with ambient pressure and from the other side with a measurement pressure or process pressure via the pressure port. 5. The steel measuring element as set forth in claim 1 , wherein the non-precipitation-hardenable austenitic chromium-nickel steel contains the following alloy components: Carbon C: 0 to 0.08% Nitrogen N: 0 to 0.11% Manganese Mn: 0 to 2.00% Molybdenum Mo: 2 to 3.00% Chromium Cr: 16 to 20% Nickel Ni: 10 to 15% Iron Fe: Remainder. 6. The steel measuring element as set forth in claim 5 , wherein the carbon C contained in the alloy is 0 to 0.03%. 7. The steel measuring element as set forth in claim 1 , wherein the steel of the steel measuring elements is selected from material standard group 316 L according to ASME, or material group 8 according to ISO TR 15608:2013, or material group designation 1.4404, 1.4435 or 1.4571. 8. The steel measuring element as set forth in claim 1 , wherein the material edge zone is characterized by a hardness corridor, depicted on a graph of Vickers Hardness versus material edge zone depth, that is bordered toward the top by a straight line sloping from 1500 HV 0.01 at the workpiece surface to 500 HV 0.01 at 50 μm depth and its continuation is bordered by a line remaining constant in depth at 500 HV 0.01, and toward the bottom by a straight line sloping from 500 HV 0.01 at the workpiece surface to 200 HV 0.01 at 7 μm depth and its continuation is bordered by a line remaining constant in depth at 200 HV 0.01. 9. The steel measuring element as set forth in claim 8 , wherein the material edge zone is characterized by a hardness corridor, depicted on a graph of Vickers Hardness versus material edge zone depth, that is bordered toward the top by a straight line sloping from 1200 HV 0.01 at the workpiece surface to 400 HV 0.01 at 20 μm depth its continuation is bordered by a line remaining constant in depth at 400 HV 0.01, and toward the bottom by a straight line sloping from 600 HV 0.01 at the workpiece surface to 200 HV 0.01 at 10 μm depth and its continuation is bordered by a line remaining constant in depth at 200 HV 0.01. 10. The steel measuring element as set forth in claim 1 , wherein the material edge zone has on its surface side a compound layer consisting of nitrides, carbides or carbonitrides with a thickness of 2 to 10 μm. 11. The steel measuring element as set forth in claim 1 , wherein the material edge zone has an increased surface hardness of 800 to 1200 HV 0.01, or is 2 to 20 μm thick. 12. A pressure measurement system, comprising: a pressure port that leads out of a housing; a measuring element that drives an indicator in front of a scale; and an elastic tube embodied as a steel measuring element according to claim 1 , which is connected in a pressure-tight manner to the pressure port and coupled with the measuring element. 13. The steel measuring element as set forth in claim 1 , wherein the steel measuring element is shaped like a membrane. 14. The steel measuring element as set forth in claim 13 , wherein the steel measuring element is provided on both sides with the material edge zone that has increased strength and increased hardness. 15. A steel measuring element, having a material edge zone, that deforms when subjected to alternating bending actions induced by alternating pressure loads, wherein the steel measuring element is made of a non-precipitation-hardenable austenitic chromium-nickel steel, the material edge zone is provided with increased strength, the hardness of the material edge zone has a Vickers hardness of at least 500 or 1.5 to 2 times the initial hardness of the basic material, the material edge zone has a thickness of 2 to 50 micrometers, and the material edge zone is only formed on the side of the steel measuring element that is subjected to elevated pressure in the operating state. 16. A pressure measurement system comprising a pressure port that leads out of a housing and a measuring element that drives an indicator in front of a scale and an elastic tube which is connected in a pressure-tight manner to the pressure port and coupled with the measuring element, wherein the elastic tube deforms when subjected to alternating bending actions induced by alternating pressure loads, the elastic tube is made of an austenitic chromium-nickel steel with a carbon content of up to 0.03% and less than 2% manganese and up to 0.11% nitrogen, the elastic tube has an edge layer of increased strength, the edge layer is introduced into the inside and outside of the tube, the hardness of the edge layer on the tube between the outer edge region is 500 to 1200 Vickers hardness, and the edge layer is introduced into the inside and outside of the tube and has a thickness of at least 5 to 10 μm.