Pipe coupling

That which is claimed is: 1. A slip-on piping element assembly for coupling two pipe lengths, the piping element assembly comprising: a coupling body, the coupling body comprising an outer shell extending between a first end and a second end of the coupling body, the outer shell defining an axial direction extending from the first end to the second end and a radial direction extending orthogonally from the axial direction, an inner shell defining an interior cavity, a first bore defined in the first end and communicating with the interior cavity, and a second bore defined in the second end and communicating with the interior cavity; a gasket disposed within the interior cavity, the gasket comprising a gasket shoulder contacting the inner shell of the coupling body, an annular sealing ring defining a sealing surface disposed radially inward on the annular sealing ring and adapted to seal against an outer surface of one pipe length, the annular sealing ring being about circular in cross-section and defining a diameter, and a connecting portion connecting the gasket shoulder to the annular ring, wherein the annular sealing ring, the connecting portion, and the gasket shoulder define a channel, the channel in fluid communication with the interior cavity, wherein the gasket comprises an end proximate to the interior cavity and an end distal to the interior cavity, wherein the annular sealing ring defines the end proximate to the interior cavity, wherein an annular protrusion is connected to the connecting portion and to the gasket shoulder, wherein the annular protrusion defines the end distal to the interior cavity, and wherein the annular protrusion comprises a slope portion radially proximate to the gasket shoulder and a radius portion radially distal to the gasket shoulder, wherein the end distal to the interior cavity is defined at an intersection of the slope portion and the radius portion. 2. The piping element assembly of claim 1 , wherein the channel defines a channel surface, and wherein the channel surface defines at least one leak pathway in fluid communication with the interior cavity. 3. The piping element assembly of claim 1 , wherein an axis of one pipe length is arranged at an angle of deflection with respect to an axis of the other pipe length, and wherein the piping element assembly does not include fasteners. 4. The piping element assembly of claim 3 , wherein the angle of deflection is up to 4°. 5. The piping element assembly of claim 3 , wherein the angle of deflection is up to 5°. 6. The piping element assembly of claim 3 , wherein the angle of deflection is up to 10°. 7. The piping element assembly of claim 1 , wherein the annular sealing ring defines a bore. 8. A gasket comprising: a gasket shoulder, the gasket shoulder defining a radial gasket end; an annular sealing ring defining a sealing surface disposed radially inward on the annular sealing ring, the annular sealing ring being about circular in cross-section and defining a diameter; a connecting portion connecting the gasket shoulder to the annular ring; and, an annular protrusion, the annular protrusion connected to the connecting portion and to the gasket shoulder, the annular protrusion defining a first axial gasket end and the annular sealing ring defining a second axial gasket end, wherein the annular sealing ring, the connecting portion, and the gasket shoulder define a channel, wherein the annular protrusion comprises a slope portion radially proximate to the gasket shoulder and a radius portion radially distal to the gasket shoulder, wherein the first axial gasket end is defined at an intersection of the slope portion and the radius portion, the radius portion defining a radius surface that is curved. 9. The gasket of claim 8 , wherein the gasket shoulder comprises an interior axial face, the interior axial face being a positive distance from the second axial gasket end as measured axially away from the first axial gasket end, the distance being less than the diameter. 10. The gasket of claim 8 , wherein the gasket shoulder comprises an interior axial face, the interior axial face being a positive distance from the second axial gasket end as measured axially away from the first axial gasket end, the distance being greater than the diameter. 11. The gasket of claim 8 , wherein the channel defines a channel surface, wherein the channel surface defines at least one leak pathway in fluid communication with an interior cavity. 12. The gasket of claim 8 , wherein the annular sealing ring defines a bore. 13. A method of joining two pipe lengths, the method comprising: obtaining a piping element assembly, the piping element assembly comprising a coupling body, the coupling body comprising an outer shell extending between a first end and a second end of the coupling body, the outer shell defining an axial direction extending from the first end to the second end and a radial direction extending orthogonally from the axial direction, an inner shell defining an interior cavity, a first bore defined in the first end and communicating with the interior cavity, and a second bore defined in the second end and communicating with the interior cavity; a gasket disposed within the interior cavity, the gasket comprising a gasket shoulder contacting the inner shell of the coupling body, an annular sealing ring defining a sealing surface disposed radially inward on the annular sealing ring and adapted to seal against an outer surface of one pipe length, the annular sealing ring being about circular in cross-section and defining a diameter, and a connecting portion connecting the gasket shoulder to the annular ring, wherein the annular sealing ring, the connecting portion, and the gasket shoulder define a channel, the channel in fluid communication with the interior cavity, and wherein the piping element assembly does not include fasteners; arranging one pipe length such that an end of the pipe length is in alignment with the first bore; inserting the one pipe length into the first bore, whereby the annular sealing ring contacts an outer surface of the pipe length; arranging the piping element assembly on the one pipe length at a position further than a desired location of engagement; arranging the other pipe length such that an end of the other pipe length is in alignment with the second bore, and inserting the other pipe length into the second bore, whereby the annular sealing ring contacts an outer surface of the other pipe length, wherein at least a portion of the gasket is extruded between the piping element and one pipe length. 14. A slip-on piping element assembly for coupling two pipe lengths, the piping element assembly comprising: a coupling body, the coupling body comprising an outer shell extending between a first end and a second end of the coupling body, the outer shell defining an axial direction extending from the first end to the second end and a radial direction extending orthogonally from the axial direction, an inner shell defining an interior cavity, a first bore defined in the first end and communicating with the interior cavity, and a second bore defined in the second end and communicating with the interior cavity; a gasket disposed within the interior cavity, the gasket comprising a gasket shoulder contacting the inner shell of the coupling body, an annular sealing ring defining a sealing surface disposed radially inward on the annular sealing ring and adapted to seal against an outer surface of one pipe length, the annular sealing ring being about circular in cross-section and defining a diam