Electrical contact apparatus, assemblies, and methods

What is claimed is: 1. An electrical contact assembly, comprising: an outer element of a first material composition having one or more apertures, wherein the first material composition includes an electrically conductive metal having a first range of % of the electrically conductive metal and a first material, the first material composition having a mechanical wear property and an electrical wear property; an inner element of a second material composition contacted through a length of at least one aperture of the one or more aperture, wherein the second material composition includes the electrically conductive metal having a second range of % of the electrically conductive metal and a second material, the second material composition having an electrical conductivity property; and a solder layer configured to solder both the inner element and the outer element directly to at least one conductor such that both the inner element and the outer element are soldered onto the at least one conductor by the solder layer, wherein the outer element is arranged to surround the inner element such that the outer element provides a structure for supporting the inner element when the inner element gets soft when hot during operation, wherein the second range of % of the electrically conductive metal is different from the first range of % of the electrically conductive metal, wherein the second material is different from the first material. 2. The electrical contact assembly of claim 1 , wherein the electrically conductive metal in the first material composition comprises silver having a range of one of 30% to 60% silver, 40% to 60% silver, or 50% to 60% silver. 3. The electrical contact assembly of claim 2 , wherein the first material includes a portion of tungsten. 4. The electrical contact assembly of claim 1 , wherein the electrically conductive metal in the second material composition comprises silver having a range of one of 70% to 98% silver, 80% to 98% silver, or 90% to 98% silver. 5. The electrical contact assembly of claim 4 , wherein the second material includes a portion of graphite. 6. The electrical contact assembly of claim 1 , wherein the outer element and the at least one aperture of the one or more aperture have a shape that is one of the same or different, such that both have a shape from the group consisting of a geometric shape, a non-uniform shape or a uniform shape. 7. The electrical contact assembly of claim 1 , wherein the inner element and the at least one aperture of the one or more aperture have a shape that is approximately the same, such that both have a shape from the group consisting of a geometric shape, a non-uniform shape or a uniform shape. 8. The electrical contact assembly of claim 1 , wherein the inner element extends beyond a plane of a top surface of the outer element by one of about 0.05 mm to about 0.38 mm, about 0.13 mm to about 0.25 mm, or 0.03 mm to about 0.50 mm. 9. The electrical contact assembly of claim 1 , wherein the inner element recess or cavity has a depth measured from the top plane of the outer element of one of about 0.05 mm to about 0.25 mm, 0.03 mm to about 0.30 mm, or about 0.04 mm to about 0.5 mm. 10. The electrical contact assembly of claim 1 , further comprising at least one metallic support in communication with the outer element and the inner element, the at least one metallic support is part of a current path of at least one electrical interconnection device. 11. The electrical contact assembly of claim 1 , wherein the first material composition has one or more physical properties from the group consisting of one of a thermal conductivity range of 109 W/m·° K to 419 W/m·° K, a temperature coefficient electrical resistance range of 0.0014/° K to 0.0041/° K, or an electrical resistivity range of 1.7 μΩ·cm to 5.5 μΩ·cm. 12. The electrical contact assembly of claim 1 , wherein the second material composition has one or more physical properties from the group consisting of one of a thermal conductivity range of 140 W/m·° K to 370 W/m·° K, a temperature coefficient electrical resistance range of 0.0014/° K to 0.0036/° K or an electrical resistivity range of 2.0 μΩ·cm to 5.0 μΩ·cm. 13. The electrical contact assembly of claim 1 , wherein the electrical contact is incorporated into a group consisting of at least one type of circuit interconnect device, at least one type of circuit breaker, at least one type of switch or at least one type of other non-circuit breaker devices. 14. An electrical contact assembly of a circuit interconnect device, comprising: a first element of a first material, the first element having one or more aperture; a second element of a second material, the second element positioned in at least one aperture of the one or more aperture, wherein the second material is different from the first material; and a solder layer configured to solder both the first element and the second element directly to at least one conductor such that both the first element and the second element are soldered onto the at least one conductor by the solder layer. 15. The electrical contact assembly of claim 14 , wherein the first material includes silver having a range of one of 30% to 60% silver, 35% to 60% silver, or 45% to 60% silver. 16. The electrical contact assembly of claim 15 , wherein the first material includes a portion of tungsten. 17. The electrical contact assembly of claim 14 , wherein the second material includes a silver having a range of one of 70% to 98% silver and includes a portion of a graphite; 85% to 98% silver and includes a portion of at least one other material, or 92% to 98% or more silver and includes a portion of at least one other material. 18. A method for preparation of an electrical contact, comprising: providing a first element of a first material having a composition of silver having a range of about 40% to about 60%, the first element having one or more aperture; providing a second element of a second material having a composition of silver having a range of about 70% or more; inserting the second element into at least one aperture of the one or more aperture of the first element; and soldering both the first element and the second element directly to at least one conductor by a solder layer such that both the first element and the second element are soldered onto the at least one conductor by the solder layer. 19. The method for preparation of the electrical contact of claim 18 , wherein the first element comprises a powdered metal component including at least a portion of silver in powder form mixed with at least a portion of another material, the mixture is poured into a die and pressed, after pressing, heat is applied via an oven, wherein a disk-like part is formed having the at least one aperture. 20. The method for preparation of the electrical contact of claim 18 , comprising: heating and pouring the assembly of the second material into the at least one aperture of the one or more aperture of the first element; or press fitting the assembly of the second element into the at least one aperture of the one or more aperture of the first element.