Time delay toe sleeve

What is claimed is: 1. A downhole tool actuatable in response to applied pressure of fluid, the tool comprising: a housing defining a housing bore therethrough, the housing having a communication path extending from a first part of the housing bore to a second part of the housing bore; an insert movably disposed in the housing bore; at least one retainer engaged between the insert and the housing, the at least one retainer at least temporarily retaining the insert in a first position in the housing bore and being at least partially composed of a dissolvable material; and a barrier disposed in the communication path between the first and second parts of the housing bore and being breachable in response to a level of the applied pressure in the first part, the breached barrier permitting the fluid to communicate through the communication path to the second part, the at least one retainer at least partially dissolving in response to the fluid communicated through the communication path to the second part and permitting movement of the insert from the first position to a second position. 2. The tool of claim 1 , wherein the housing defines at least one port communicating the housing bore outside the housing, wherein the insert is movable from the first position covering the at least one port to the second position uncovering the at least one port, and wherein the at least one retainer at least partially dissolved permits the movement of the insert from the first position to the second position. 3. The tool of claim 1 , wherein the dissolvable material of the at least one retainer is selected from the group consisting of a polystyrene, an elastomer, a resin, an adhesive, a polyester, a polymide, a thermoplastic polymer, a polyglycolide, a polyglycolic acid, a thermosetting polymer, an aluminum, and a reactive metal. 4. The tool of claim 1 , wherein the at least one retainer comprises a coating of non-dissolvable material covering the dissolvable material, the coating being breachable in response to the applied pressure. 5. The tool of claim 4 , wherein the non-dissolvable material is selected from the group consisting of a ceramic, a metal, and a plastic. 6. The tool of claim 1 , wherein the at least one retainer is engaged between a first shoulder disposed on the insert and a second shoulder disposed on the second part of the housing bore. 7. The tool of claim 6 , wherein the first and second shoulders are spaced from the at least one retainer and permit partial movement of the insert toward the second position, the insert partially moved toward the second position initiating dissolving of the dissolvable material of the at least one retainer. 8. The tool of claim 7 , wherein the at least one retainer comprises a coating of non-dissolvable material covering the dissolvable material, the coating being breachable in response to the partial movement of the insert toward the second position. 9. The tool of claim 1 , wherein the at least one retainer comprises one or more keys disposed in one or more windows on the insert and engaged in one or more slots in the second part of the housing bore. 10. The tool of claim 1 , wherein the insert defines a sealed chamber with the housing bore; and wherein the insert is biased toward the second position by a differential pressure between the insert and the sealed chamber. 11. The tool of claim 1 , wherein the insert comprises at least one of: at least one retention device at least temporarily holding the insert in the first position and being breakable in response to the movement to the second position; a lock engageable with the housing bore when the insert is in the second position; and first and second seals sealing against the housing bore on both sides of the at least one port when the insert is in the first position. 12. The tool of claim 1 , wherein the insert in the first position sealably closes off the communication path at the second part of the housing bore. 13. The tool of claim 1 , wherein the housing comprises at least one of: at least one seal disposed in the second part of the housing bore and engaging a portion of the insert; and a sealed chamber defined between the housing bore and the insert in the first position and decreasing in volume with the movement of the insert from the first position to the second position. 14. A downhole tool actuatable in response to applied pressure of fluid, the tool comprising: a housing defining a housing bore therethrough and defining at least one port communicating the housing bore outside the housing, the housing having a communication path extending from a first part of the housing bore to a second part of the housing bore; an insert movably disposed in the housing bore and sealably enclosing the communication path at the second part of the housing bore, the insert being movable from a first position covering the at least one port to a second position uncovering the at least one port; a barrier disposed between the first and second parts of the communication path and being breachable in response to a level of the applied pressure in the housing bore, the breached barrier permitting the fluid to communicate through the communication path to the second part; and at least one retainer engaged between the insert and the second part of the housing bore and at least temporarily retaining the insert toward the first position, the at least one retainer being at least partially composed of a dissolvable material and at least partially dissolving in response to the fluid communicated through the communication path to the second part, the at least one retainer being at least partially dissolved permitting movement of the insert from the first position to the second position. 15. The tool of claim 14 , wherein the at least one retainer comprises a coating of non-dissolvable material covering the dissolvable material, the coating being breachable in response to the applied pressure. 16. A method of opening a sleeve on a tubing string, the method comprising: holding an insert toward a closed condition in the sleeve with at least one retainer; applying pressure of fluid down the tubing string to the sleeve; breaching, in response to the applied pressure, a breachable barrier in the sleeve between a bore of the sleeve and an internal space in the sleeve; at least partially dissolving the at least one retainer in response to the breached barrier; releasing the hold of the insert toward the closed condition in response to the at least partially dissolving of the at least one retainer; and shifting the insert toward an opened condition in the sleeve in response to the released hold. 17. The tool of claim 14 , wherein the at least one retainer is engaged between a first shoulder disposed on the insert and a second shoulder disposed on the second part of the housing bore, the first and second shoulders permitting partial movement of the insert toward the second position to breach a non-dissolvable coating on the at least one retainer and initiate dissolving of the dissolvable material of the at least one retainer. 18. The tool of claim 14 , wherein the insert defines a sealed chamber with the housing bore; and wherein the insert is biased toward the second position by a differential pressure between the insert and the sealed chamber. 19. The method of claim 16 , wherein at least partially dissolving the at least one retainer comprises at least partially dissolving the at least one retainer with the fluid communicated in the internal space of the sleeve.