Downhole tool protection during wellbore cementing

What is claimed is: 1. A casing mandrel, comprising: a body having a first end and a second end, the first end being configured to be coupled to an upper portion of a casing string and the second end being configured to be coupled to a lower portion of the casing string; a downhole tool operatively coupled to an outer surface of the body; a tool port comprising at least a first conduit and a second conduit fluidly and structurally intersecting the first conduit, the tool port defined in the body and extending between the downhole tool and an interior of the body and thereby placing the downhole tool in fluid communication with the interior of the body; and at least one degradable plug disposed within the tool port, wherein the at least one degradable plug degrades over time. 2. The casing mandrel of claim 1 , wherein the downhole tool is a gauge operable to monitor fluids present through the interior of the body via the tool port. 3. The casing mandrel of claim 1 , wherein the downhole tool is a chemical injector operable to inject a fluid into the interior of the body via the tool port. 4. The casing mandrel of claim 1 , wherein the at least one degradable plug is placed into the tool port, threaded into the tool port, press-fit into the tool port, welded into the tool port, brazed into the tool port, adhesively secured to the tool port, or any combination thereof. 5. The casing mandrel of claim 1 , wherein the at least one degradable plug comprises a degradable material selected from the group consisting of a degradable polymer, an oil-degradable polymer, a dehydrated salt, a galvanically-corrodible metal, and any combination thereof. 6. The casing mandrel of claim 5 , wherein the degradable polymer comprises one selected from the group consisting of polyglycolic acid, polylactic acid, polylactic co-glycolic acid, and any combination thereof. 7. The casing mandrel of claim 1 , wherein the at least one degradable plug degrades following exposure to a wellbore parameter selected from the group consisting of temperature, pressure, a fluid, and any combination thereof. 8. The casing mandrel of claim 1 , wherein the at least one degradable plug is disposed in at least one of the first and second conduits. 9. The casing mandrel of claim 1 , wherein: the first conduit is defined in the body and provides an inner end and an outer end, wherein an inlet to the tool port from the interior is provided at the inner end and the outer end extends to an exterior of the body; one or more port plugs are disposed within the first conduit at or near the outer end; and the second conduit is defined in the body and in direct fluid communication with the downhole tool. 10. The casing mandrel of claim 1 , wherein: the first conduit is defined in the body and provides a first inner end and a first outer end, wherein an inlet to the tool port from the interior is provided at the first inner end and the first outer end extends to an exterior of the body; one or more first port plugs are disposed within the first conduit at or near the first outer end; the second conduit is defined in the body and provides a second inner end and a second outer end, the second outer end extending to the exterior of the body; one or more second port plugs are disposed within the second conduit at or near the second outer end; and the casing mandrel further comprises a third conduit structurally intersecting the second conduit and extending to the downhole tool. 11. The casing mandrel of claim 1 , further comprising a delay plug disposed within the tool port and interposing the interior of the body and the at least one degradable plug. 12. The casing mandrel of claim 11 , wherein the at least one degradable plug comprises a first degradable material and the delay plug comprises a second degradable material, and wherein the second degradable material is configured to degrade at a rate slower than the first degradable material in a wellbore environment. 13. The casing mandrel of claim 11 , wherein the delay plug is made of a non-degradable material and defines a weep hole that provides fluid communication between the interior of the body and the degradable plug. 14. A wellbore system, comprising: a casing string arranged within a wellbore and an annulus being between the casing string and the wellbore; a casing mandrel having a body arranged within the casing string between upper and lower portions of the casing string; a downhole tool operatively coupled to an outer surface of the body such that the downhole tool is disposed within the annulus; a tool port comprising at least a first conduit and a second conduit fluidly and structurally intersecting the first conduit, the tool port defined in the body and extending between an interior of the body and the downhole tool, and the tool port being configured to place the downhole tool in fluid communication with the interior of the body; and at least one degradable plug disposed within the tool port to prevent wellbore debris from obstructing fluid communication between the interior and the downhole tool, wherein the at least one degradable plug degrades over time. 15. The wellbore system of claim 14 , wherein the casing string and the casing mandrel are permanently secured within the wellbore with cement deposited in the annulus. 16. The wellbore system of claim 14 , wherein the downhole tool is at least one of a gauge operable to monitor fluids flowing within the body via the tool port, and a chemical injector operable to inject a fluid into the interior of the body via the tool port. 17. The wellbore system of claim 14 , wherein the at least one degradable plug comprising a degradable material selected from the group consisting of degradable polymers, oil-degradable polymers, dehydrated salts, a galvanically-corrodible metal, and any combination thereof. 18. The wellbore system of claim 17 , wherein the degradable polymer comprises at least one of polyglycolic acid, polylactic acid, and polylactic co-glycolic acid. 19. The wellbore system of claim 14 , wherein the at least one degradable plug degrades following exposure to a wellbore parameter selected from the group consisting of temperature; pressure, a fluid, and any combination thereof. 20. The wellbore system of claim 14 , wherein the at least one degradable plug is disposed in at least one of the first and second conduits. 21. The wellbore system of claim 14 , further comprising a delay plug disposed within the tool port and interposing the interior of the body and the at least one degradable plug. 22. A method, comprising: arranging a casing string within a wellbore, the casing string having a casing mandrel arranged therein between upper and lower portions of the casing string; arranging at least one degradable plug within at least one of a first conduit and a second conduit of a tool port defined in a body of the casing mandrel, the second conduit fluidly and structurally intersecting the first conduit, and the tool port extending between an interior of the body and a downhole tool operatively coupled to an outer surface of the body; securing the casing string and the casing mandrel within the wellbore with a cement composition; preventing the cement composition from entering the tool port with the at least one degradable plug; and degrading the at least one degradable plug over time to establish fluid communication between the interior of the body and the downhole tool. 23.