Packer assembly with thermal expansion buffers and isolation methods

I claim: 1. A packer assembly comprising: a slip assembly comprising a cammed surface; a wedge member comprising a cammed outer surface, the wedge member being slidable in an axial direction to engage the cammed surface of the slip assembly to actuate the slip assembly; and a sacrificial member extending across the cammed surface of the slip assembly and disposed between the cammed surface of the slip assembly and the cammed outer surface of the wedge member, the sacrificial member having a linear thickness that is approximately equivalent to a linear displacement resulting from thermal expansion of the cammed surface of the slip assembly and the wedge member and being configured to destruct to provide a void between the cammed surface of the slip assembly and the cammed outer surface of the wedge member. 2. The packer assembly of claim 1 , wherein the slip assembly further comprises a second cammed surface, and wherein the packer assembly further comprises: a stationary cammed surface, wherein the second cammed surface movable upon actuation of the slip assembly to engage the stationary cammed surface; and a second sacrificial member disposed between the second cammed surface and the stationary cammed surface. 3. The packer assembly of claim 2 , wherein the second sacrificial member has a linear thickness that is approximately equivalent to a linear displacement resulting from thermal expansion of the second cammed surface of the slip assembly and the stationary cammed surface. 4. The packer assembly of claim 1 , wherein the sacrificial member comprises a dissolvable material. 5. The packer assembly of claim 1 , wherein the sacrificial member comprises a thermoplastic. 6. The packer assembly of claim 1 , wherein the sacrificial member comprises a material that results in the destruction of the sacrificial member at a temperature of approximately 400° F. to approximately 450° F. 7. The packer assembly of claim 1 , wherein the sacrificial member extends parallel to the cammed surface of the slip assembly and the cammed outer surface of the wedge member. 8. A packer assembly comprising: an expandable sealing element; a compressive actuator configured to compress the expandable sealing element to actuate the packer assembly; and a sacrificial member disposed between and extending parallel to the expandable sealing element and the compressive actuator, the sacrificial member having a thickness that is approximately equivalent to the total thermal expansion of the packer assembly along an axial direction and being configured to destruct to provide a void between the expandable sealing element and the compressive actuator. 9. The packer assembly of claim 8 , wherein the sacrificial member comprises a dissolvable material. 10. The packer assembly of claim 8 , wherein the sacrificial member comprises a thermoplastic. 11. The packer assembly of claim 8 , wherein the sacrificial member comprises a material that results in the destruction of the sacrificial member at a temperature of approximately 400° F. to approximately 450° F. 12. An isolation method comprising: providing an isolation system comprising: an expandable sealing element; a compressive actuator; and a first sacrificial member disposed between and extending parallel to the expandable sealing element and the compressive actuator, the sacrificial member having a thickness that is approximately equivalent to the total thermal expansion of the packer assembly along an axial direction; actuating the compressive actuator to compress the expandable sealing element; and destructing the first sacrificial member to provide a void between the expandable sealing element and the compressive actuator. 13. The isolation method of claim 12 , further comprising: providing a packer assembly comprising: a slip assembly comprising a cammed surface; a second actuator comprising a cammed outer surface, the second actuator being slidable in the axial direction to engage the cammed surface of the slip assembly to actuate the slip assembly; and a second sacrificial member disposed between the cammed surface of the slip assembly and the cammed outer surface; actuating the second actuator to engage the cammed outer surface with the cammed surface of the slip assembly; and allowing the second sacrificial member to destruct. 14. The isolation method of claim 13 , wherein the first sacrificial member and the second sacrificial member comprise a dissolvable material. 15. The isolation method of claim 13 , wherein the first sacrificial member and the second sacrificial member comprise a thermoplastic. 16. The isolation method of claim 13 , wherein the first sacrificial member and the second sacrificial member comprise a material that results in the destruction of the sacrificial member at a temperature of approximately 400° F. to approximately 450° F.