Terminal/connector having integral oxide breaker element

What is claimed is: 1. An electrical terminal comprising: a mount portion and a wire receiving portion formed of an electrically conductive material; the wire receiving portion having a continuous interior wall and configured to be crimped and having an aperture to receive a wire, the wire receiving portion including a contact portion having an integral oxide breaker element and a sealing portion that is adjacent to and spaced from the contact portion toward the aperture; the integral oxide breaker element including a plurality of protrusions that extend around the continuous interior wall and extend radially inwardly in the contact portion, the protrusions configured to engage a wire positioned in the contact portion and to protrude into the wire when the wire receiving portion is crimped; a material layer coating formed on at least a portion of the integral oxide breaker element and made of a material different from the material of the integral oxide breaker element; the sealing portion including at least one integral seal ring and at least one flexible seal ring adjacent to an integral seal ring for sealing the wire when the wire receiving portion is crimped. 2. The electrical terminal of claim 1 wherein the plurality of protrusions are tapered and extend from an interior wall of the contact portion with small ends of the tapered protrusions pointing toward a center axis of the wire receiving portion. 3. The electrical terminal of claim 1 wherein the plurality of protrusions are axial ridges having a longitudinal axis parallel to the center axis of the wire receiving portion. 4. The electrical terminal of claim 1 wherein the coating material includes at least one of nickel, electro nickel, gold, silver, tin, tin-lead or alkaline-bismuth-tin. 5. The electrical terminal of claim 1 wherein the oxide breaker element includes a helical thread. 6. The electrical terminal of claim 1 wherein the sealing portion includes a plurality of integral seal rings. 7. The electrical terminal of claim 1 wherein the electrically conductive material includes at least one of aluminum or copper. 8. The electrical terminal of claim 1 further comprising a lubricant layer applied on an outside surface of at least part of the wire receiving portion. 9. A cable comprising: an electrical wire having a conductor and insulation; an electrical terminal formed of an electrically conductive material having an aperture to receive a wire and including a crimp portion to be crimped to the electrical wire; an oxide breaker element integrally formed in an annular wall of the crimp portion, the oxide breaker element including at least one protrusion configured to penetrate an outer layer of the conductor to make an electrical path with the wire when the electrical terminal is crimped to the wire; a material layer coating formed on at least a portion of the oxide breaker element and made of a material different from the material of the oxide breaker element, the material layer penetrating the outer layer of the conductor; and at least one integral seal ring integrally formed in the annular wall of the crimp portion and spaced from the oxide breaker element and at least one flexible seal ring adjacent to an integral seal ring for sealing an end of the electrical terminal with the insulation when the electrical terminal is crimped. 10. An electrical connector for connecting electrical wires comprising: a body formed of an electrically conductive material and including wire receiving portions positioned at opposing ends of the body; each wire receiving portion having a continuous interior wall and configured to be crimped and having a respective aperture to receive a wire, the wire receiving portion including a contact portion having an integral oxide breaker element and a sealing portion that is adjacent to and spaced from the contact portion toward the respective aperture; at least one of the integral oxide breaker elements of a wire receiving portion including a plurality of protrusions that extend around the continuous interior wall and extend radially inwardly in the contact portion, the protrusions configured to engage a wire positioned in the contact portion and to protrude into the wire when the wire receiving portion is crimped; a material layer coating formed on at least a portion of at least one of the oxide breaker elements and made of a material different from the material of the at least one oxide breaker element; the sealing portion of at least one wire receiving portion including at least one integral seal ring and at least one flexible seal ring adjacent to an integral seal ring for sealing the wire when the wire receiving portion is crimped. 11. The electrical connector of claim 10 wherein the plurality of protrusions are tapered and extend from an interior wall of the contact portion with small ends of the tapered protrusions pointing toward a center axis of the wire receiving portion. 12. The electrical connector of claim 10 wherein the plurality of protrusions are axial ridges having a longitudinal axis parallel to the center axis of the wire receiving portion. 13. The electrical connector of claim 10 wherein the coating material includes at least one of nickel, electro nickel, gold, silver, tin, tin-lead or alkaline-bismuth-tin. 14. The electrical connector of claim 10 wherein the oxide breaker element includes a helical thread. 15. The electrical connector of claim 10 wherein the sealing portion includes a plurality of integral seal rings. 16. The electrical connector of claim 10 wherein the electrically conductive material includes at least one of aluminum or copper. 17. The electrical connector of claim 10 wherein one of the wire receiving portions has an inner diameter that is smaller than an inner diameter of the other wire receiving portion for connecting electrical wires having different sizes. 18. The electrical connector of claim 10 further comprising a lubricant layer applied on an outside surface of at least part of a wire receiving portion. 19. A cable comprising: a plurality of electrical wires, each wire having a conductor and insulation; a connector formed of an electrically conductive material and configured to connect the plurality of wires together, the connector including wire receiving portions positioned at opposing ends of the connector for receiving a conductor and insulation of a respective electrical wire; each wire receiving portion of the connector having a continuous interior wall and configured to be crimped onto the respective electrical wire and having a respective aperture to receive a respective wire, each wire receiving portion including a contact portion having an integral oxide breaker element and a sealing portion that is adjacent to and spaced from the contact portion toward the respective aperture; at least one of the integral oxide breaker elements of a wire receiving portion including a plurality of protrusions that extend around the continuous interior wall and extend radially inwardly in the contact portion, the protrusions configured to engage a wire positioned in the contact portion and to protrude into the wire conductor when the wire receiving portion is crimped; a material layer coating formed on at least a portion of at least one of the oxide breaker elements and made of a material different from the material of the at least one oxide breaker element; the sealing portion of at least one wire receiving portion including at least one integral seal ring and at least one flexible sea