Lining for mechanical joints

That which is claimed is: 1. A mechanical joint comprising: a main body having an interior surface, an exterior surface, an inlet end, and an outlet end, the interior surface defining a fluid path of a valve configured to control flow from the inlet end to the outlet end, the interior surface defining an inlet pipe seat proximate to the inlet end and an outlet pipe seat proximate to the outlet end, the inlet pipe seat having an inlet pipe seat stop surface facing towards the inlet end and an outlet pipe seat stop surface facing towards the outlet end; a lining engaging the interior surface and covering at least a portion of the inlet pipe seat stop surface of the inlet pipe seat and the outlet pipe seat stop surface of the outlet pipe seat, the lining comprising a central section, an inlet pipe contact surface positioned between the central section and an inlet end of the lining, and an outlet pipe contact surface positioned between the central section and an outlet end of the lining distal from the inlet end, the lining further comprising an inlet side shoulder positioned between an axial center of the lining and the inlet pipe contact surface and an outlet side shoulder positioned between an axial center of the lining and the outlet pipe contact surface, each of the inlet side shoulder and the outlet side shoulder orthogonal to the fluid path, an inner diameter of the lining greater at a position axially outward from the inlet side shoulder than at a position axially inward from the inlet side shoulder and an inner diameter of the lining greater at a position axially outward from the outlet side shoulder than at a position axially inward from the outlet side shoulder, the lining further comprising a first deflection catch surface between the inlet pipe contact surface and the inlet end and a second deflection catch surface between the outlet pipe contact surface and the outlet end, the first deflection catch surface extending axially from the inlet pipe contact surface and the second deflection catch surface extending axially from the outlet pipe contact surface; an inlet gasket proximate to the inlet end of the main body and positioned between the inlet end and the first deflection catch surface and an outlet gasket proximate to the outlet end of the main body and positioned between the outlet end and the second deflection catch surface; and wherein the inlet gasket, the outlet gasket, the first deflection catch surface, and the second deflection catch surface together are configured to face a radially outermost exterior surface of a respective pipe element of a pair of pipe elements inserted into the mechanical joint and extending axially outward past the lining and the mechanical joint, and form a barrier between the main body and the respective pipe element in a radial direction with respect to an axis of the pipe element, the barrier configured to prevent any contact between the main body and the respective pipe element. 2. The mechanical joint of claim 1 , wherein the main body includes a central portion between the inlet end and the outlet end, and wherein the lining covers the central portion. 3. The mechanical joint of claim 1 , wherein the main body defines a bore extending from the interior surface to the exterior surface in the central portion, the bore including a bore wall. 4. The mechanical joint of claim 3 , wherein the lining extends axially outwardly from the bore wall towards the inlet pipe seat and the outlet pipe seat. 5. The mechanical joint of claim 1 , further comprising the pipe element, the pipe element positioned within a one of the inlet end and the outlet end, a one of the first deflection catch surface and the second deflection catch surface facing a radially outermost exterior surface of the pipe element. 6. The mechanical joint of claim 1 , wherein the inlet pipe contact surface covers the inlet pipe seat stop surface and the outlet pipe contact surface covers the outlet pipe seat stop surface, each of the inlet pipe contact surface and the outlet pipe contact surface extending orthogonally to the fluid path and facing the one of the inlet end and the outlet end. 7. The mechanical joint of claim 6 , wherein the lining includes an annular rib extending axially outwardly from the inlet pipe contact surface towards the inlet end and an annular rib extending axially outwardly from the outlet pipe contact surface towards the outlet end. 8. The mechanical joint of claim 6 , wherein the lining includes two pairs of spaced annular ribs, a first pair of spaced annular ribs extending axially outwardly from the inlet pipe contact surface towards the inlet end and a second pair of spaced annular ribs extending axially outwardly from the outlet pipe contact surface towards the outlet end. 9. The mechanical joint of claim 1 , wherein the mechanical joint is a butterfly valve, the mechanical joint further comprising a valve disc positioned in the fluid path and rotatable to a closed position to block the fluid path between the inlet end and the outlet end. 10. The mechanical joint of claim 9 , wherein the lining includes an inner surface, and wherein the inner surface seals against the valve disc when the valve disc is in the closed position. 11. The mechanical joint of claim 1 , wherein the lining includes a non-corrosive material. 12. The mechanical joint of claim 11 , wherein the non-corrosive material is one of EPDM rubber and Buna-N rubber. 13. A method of installing a pipe element into a mechanical joint, the method comprising: obtaining a mechanical joint, the mechanical joint including: a body formed from metal and having an interior surface, an exterior surface, an inlet end defining an inlet, and an outlet end defining an outlet, the interior surface defining a fluid path of a valve configured to control flow from the inlet to the outlet; and a lining engaging the interior surface of the body and extending axially outwardly from a common axis of symmetry of the lining towards the inlet end and the outlet end of the body, the lining comprising a central section, a pipe contact surface positioned between the central section and the one of the inlet end and the outlet end of the lining, a deflection catch surface positioned between the pipe contact surface and the one of the inlet end and outlet end of the lining, and a side shoulder positioned between an axial center of the lining and the pipe contact surface, an inner diameter of the lining greater at a position axially outward from the side shoulder than at a position axially inward from the side shoulder; providing a gasket proximate to one of the inlet end and outlet end of the body and positioned between the one of the inlet end and outlet end of the body and the deflection catch surface; inserting a pipe element having a pipe end into a one of the inlet and the outlet, the pipe element extending axially outward past the lining and the mechanical joint; and bringing the pipe end into contact with the lining so that the deflection catch surface faces a radially outermost exterior surface of the pipe element, the lining and the gasket together creating a barrier between the body and the pipe element in a radial direction with respect to an axis of the pipe element, the barrier configured to prevent any contact between the body and the pipe element. 14. The method of claim 13 , wherein: the lining includes the pipe contact surface extending orthogonally to the fluid path and facing the one of the inlet end and the outlet end; and bringing the pipe end into contact with the lining includes bringing the pipe end into contact with the pipe contact surface.