Electrical contact tip for switching applications and an electrical switching device

The invention claimed is: 1. An electrical contact tip for switching applications, the contact tip comprising: a body having a first layer and a second layer, the first layer is arranged on the second layer and is configured to come in contact with a corresponding contact tip during switching operations, wherein the first layer and the second layer are each made of a sintered Ag-composite, the Ag-composites of the first layer and the second layer each having an Ag-matrix with impurities and one or more elements, compounds, or alloys distributed in the Ag-matrix, wherein the hardness of the first layer is lower than the hardness of the second layer, wherein the thickness of the first layer is between 10% and 40% of the thickness of the second layer, and wherein the Ag-composite of the first layer comes into or out of contact with the corresponding contact tip to provide bypass-isolation switching, and when the first layer is worn off, the Ag-composite of the second layer comes into or out of contact with the corresponding contact tip to provide load switching. 2. The electrical contact tip according to claim 1 , wherein the hardness of the second layer is at least 1.2 times higher than the hardness of the first layer. 3. The electrical contact tip according to claim 1 , wherein the hardness of the first layer is in the range of 50 to 140 Vickers Hv1 and the hardness of the second layer is in the range of 60 to 150 Vickers Hv1. 4. The electrical contact tip according to claim 1 , wherein the resistivity of the first layer is lower than the resistivity of the second layer. 5. The electrical contact tip according to claim 1 , wherein the resistivity of the second layer is at least 1.2 times higher than the resistivity of the first layer. 6. The electrical contact tip according to claim 1 , wherein the resistivity of the first layer is in the range of 1.7·10 −8 to 2.6·10 −8 Ω·m and the resistivity of the second layer is in the range of 1.9·10 −8 to 2.8·10 −8 Ω·m. 7. The electrical contact tip according to claim 1 , wherein the content of Ag in the Ag-composite of the first layer is higher than in the Ag-composite of the second layer. 8. The electrical contact tip according to claim 1 , wherein the content of Ag in the Ag-composite of the first layer is in the range between 70 and 96 wt. % and the content of Ag in the Ag-composite of the second layer is in the range between 40 and 92 wt. %. 9. The electrical contact tip according to claim 1 , wherein the one or more elements, compounds, or alloys of the Ag-composite of the first layer and the second layer are selected from the group of Al, Fe, Sn, C, Cu, Cr, Mo, Ni, Co, W, CdO, SnO 2 , ZnO, Fe 2 O 3 , WC, MoC, ZrC, TiB 2 , ZrB 2 , AgMo, AgCo, AgNi, AgMo, AgCu, AgCr, AgCo, In 2 O 3 , Bi 2 O 3 , WO 3 , MoO 3 , CuO, and combinations of these. 10. The electrical contact tip according to claim 1 , wherein the first layer comprises a contact zone that comprises serrations. 11. The electrical contact tip according to claim 1 , wherein the first layer and the second layer are produced by means of sintering compressed powder mixtures representing the chemical composition of the first layer and the second layer. 12. The electrical contact tip according to claim 1 , wherein the body further comprises a third layer arranged on an opposite side of the second layer, which third layer has the purpose of attaching the electrical contact tip to an electrical conductor. 13. An electrical switching device comprising an electrical contact tip including: a body comprising a first layer and a second layer, the first layer is arranged on the second layer and is configured to come in contact with a corresponding contact tip during switching operations, wherein the first layer and the second layer are each made of a sintered Ag-composite, the Ag-composites of the first layer and the second layer each having an Ag-matrix with impurities and one or more elements, compounds, or alloys distributed in the Ag-matrix, wherein the hardness of the first layer is lower than the hardness of the second layer, wherein the thickness of the first layer is between 10% and 40% of the thickness of the second layer, and wherein the Ag-composite of the first layer comes into or out of contact with the corresponding contact tip to provide bypass-isolation switching, and when the first layer is worn off, the Ag-composite of the second layer comes into or out of contact with the corresponding contact tip to provide load switching.