Cement having cross-linked plymers

What is claimed is: 1. A cement composition for use in a wellbore comprising: a cement comprising a calcium silicate; a polyamide compound that is cross-linked and formed by reacting an aromatic triacid chloride with an amine; and a bond between the wellbore and a tubular installed in the wellbore formed by injecting the composition into an annulus between the wellbore and the tubular. 2. The cement composition of claim 1 , where the polyamide has a molecular weight ranging from about 189 Daltons to about 555 Daltons. 3. The cement composition of claim 1 , where the polyamide was prepared by condensation of the aromatic tri-acid chloride with the diamine at room temperature by interfacial polymerization. 4. The cement composition of claim 1 , where the amine comprises ethylenediamine. 5. The cement composition of claim 1 , where the triacid chloride comprises 1,3,5-benzenetricarboxylic acid chloride. 6. The cement composition of claim 1 , where the amine comprises 1,6-diaminohexane that is mixed with sebacoyl chloride. 7. The cement composition of claim 1 , where the polyamide compound comprises an amount that ranges from about 1% by weight of the cement to about 6% by weight of the cement. 8. The cement composition of claim 1 , where the amine comprises 1,3-diaminobenzene. 9. The cement composition of claim 1 , where the amine comprises 1,4-diaminobenzene. 10. The cement composition of claim 1 , where the amine comprises 1,6-diaminohexane. 11. The cement composition of claim 1 , where the amine comprises 1,4-phenylenediamine. 12. A cement composition for use in a wellbore comprising: a cement for bonding a tubular to a sidewall of the wellbore; a polyamide compound that is cross-linked and formed by reacting an aromatic tri-acid chloride with an amine that comprises 1,6-diaminohexane mixed with sebacoyl chloride; and a flow barrier in an annulus between the wellbore and a tubular installed in the wellbore defined when the composition is disposed in the annulus.