Thermally expanding microcapsules

The invention claimed is: 1. A thermally expandable microcapsule comprising: a shell formed from a polymer; and a volatile expansion agent as a core agent encapsulated by the shell, the shell obtained by polymerizing a monomer composition that contains a nitrile monomer and a compound having a glycidyl group in a molecule, the shell exhibiting a value y of 50% or higher and a ratio y/x of 1.1 or higher, in which x represents a gel fraction at ordinary temperature, and y represents a gel fraction upon heating at 180° C. for 30 minutes, wherein the shell is obtained by polymerizing a monomer composition that contains a nitrile monomer, a hydroxy group-containing monomer having a radical polymerizable double bond and a hydroxy group, and a polyfunctional reactive compound containing at least two glycidyl groups in one molecule and no radical polymerizable double bond. 2. A thermally expandable microcapsule comprising: a shell formed from a polymer; and a volatile expansion agent as a core agent encapsulated by the shell, the shell obtained by polymerizing a monomer composition that contains a nitrile monomer and a compound having a glycidyl group in a molecule, the shell exhibiting a value y of 50% or higher and a ratio y/x of 1.1 or higher, in which x represents a gel fraction at ordinary temperature, and y represents a gel fraction upon heating at 180° C. for 30 minutes, wherein the shell is obtained by polymerizing a monomer composition that contains a nitrile monomer, an amide group-containing monomer, and a compound containing a glycidyl group in a molecule. 3. The thermally expandable microcapsule according to claim 1 , wherein the polymer constituting the shell has a degree (A) of cross-linkage upon heating at 140° C. for 30 minutes of 50% by weight or higher, a degree (B) of cross-linkage upon heating at 210° C. for 30 minutes of 75% by weight or higher, and a ratio (B/A) of (B) to (A) of 1.2 to 1.8. 4. The thermally expandable microcapsule according to claim 2 , wherein the polymer constituting the shell has a degree (A) of cross-linkage upon heating at 140° C. for 30 minutes of 50% by weight or higher, a degree (B) of cross-linkage upon heating at 210° C. for 30 minutes of 75% by weight or higher, and a ratio (B/A) of (B) to (A) of 1.2 to 1.8. 5. The thermally expandable microcapsule according to claim 1 , wherein the polymer constituting the shell has a storage elastic modulus (X) at 140° C. and 10 Hz of 1×10 6 to 1×10 7 Pa, the polymer constituting the shell has a storage elastic modulus (Y) at 210° C. and 10 Hz of 1×10 8 to 1×10 9 Pa, and the polymer has a ratio (Y/X) of (Y) to (X) of from 100 inclusive to 1000 inclusive. 6. The thermally expandable microcapsule according to claim 2 , wherein the polymer constituting the shell has a storage elastic modulus (X) at 140° C. and 10 Hz of 1×10 6 to 1×10 7 Pa, the polymer constituting the shell has a storage elastic modulus (Y) at 210° C. and 10 Hz of 1×10 8 to 1×10 9 Pa, and the polymer has a ratio (Y/X) of (Y) to (X) of from 100 inclusive to 1000 inclusive. 7. The thermally expandable microcapsule according to claim 3 , wherein the polymer constituting the shell has a storage elastic modulus (X) at 140° C. and 10 Hz of 1×10 6 to 1×10 7 Pa, the polymer constituting the shell has a storage elastic modulus (Y) at 210° C. and 10 Hz of 1×10 8 to 1×10 9 Pa, and the polymer has a ratio (Y/X) of (Y) to (X) of from 100 inclusive to 1000 inclusive. 8. The thermally expandable microcapsule according to claim 4 , wherein the polymer constituting the shell has a storage elastic modulus (X) at 140° C. and 10 Hz of 1×10 6 to 1×10 7 Pa, the polymer constituting the shell has a storage elastic modulus (Y) at 210° C. and 10 Hz of 1×10 8 to 1×10 9 Pa, and the polymer has a ratio (Y/X) of (Y) to (X) of from 100 inclusive to 1000 inclusive. 9. The thermally expandable microcapsule according to claim 1 , wherein an amount of the polyfunctional reactive compound is 0.1 to 20% by weight of the whole monomer composition. 10. The thermally expandable microcapsule according to claim 2 , wherein the amide group-containing monomer is acrylamide or methacrylamide. 11. The thermally expandable microcapsule according to claim 1 , wherein the monomer composition has a content ratio (amide group-containing monomer/compound containing a glycidyl group in a molecule) of the amide group-containing monomer to the compound containing a glycidyl group in a molecule of 1.5 to 12. 12. The thermally expandable microcapsule according to claim 10 , wherein the monomer composition has a content ratio (amide group-containing monomer/compound containing a glycidyl group in a molecule) of the amide group-containing monomer to the compound containing a glycidyl group in a molecule of 1.5 to 12.