Laminated and ion-exchanged strengthened glass laminates

What is claimed is: 1. A strengthened laminated glass structure comprising: a core glass layer having a first coefficient of thermal expansion (CTE); a first clad glass layer laminated to a first surface of the core glass layer; and a second clad glass layer laminated to a second surface of the core glass layer; wherein each of the first clad glass layer and the second clad glass layer comprises an ion exchangeable glass having a second CTE that is lower than the first CTE of the core glass layer, whereby each of the first clad glass layer and the second clad glass layer is in a state of compressive stress; and wherein a buried compressive stress region of each of the first clad glass layer and the second clad glass layer is in a state of enhanced compressive stress compared to a non-ion-exchanged region of the respective first clad glass layer or second clad glass layer. 2. The strengthened laminated glass structure of claim 1 , wherein the ion exchangeable glass of each of the first clad glass layer and the second clad glass layer is an alkali aluminosilicate glass. 3. The strengthened laminated glass structure of claim 1 , wherein the buried compressive stress region of each of the first clad glass layer and the second clad glass layer is disposed adjacent an interface between the core glass layer and the respective first clad glass layer or second clad glass layer. 4. The strengthened laminated glass structure of claim 1 , wherein the buried compressive stress region of each of the first clad glass layer and the second clad glass layer is a result of ion exchange between the core glass layer and the respective first clad glass layer or second clad glass layer. 5. The strengthened laminated glass structure of claim 1 , wherein the core layer comprises an ion exchangeable glass. 6. The strengthened laminated glass structure of claim 5 , wherein the ion exchangeable glass of the core glass layer has a greater concentration of K ions than the ion exchangeable glass of each of the first clad glass layer and the second clad glass layer. 7. The strengthened laminated glass structure of claim 1 , wherein compressive stress produced by ions exchanged from the core glass layer into each of the first clad glass layer and the second clad glass layer combine with the state of compressive stress in the respective first clad glass layer or second clad glass layer to produce a spike in compressive stress in the buried compressive stress region of the respective first clad glass layer or second clad glass layer. 8. The strengthened laminated glass structure of claim 1 , wherein the second CTE of the ion exchangeable glass of each of the first clad glass layer and the second clad glass layer is less than or equal to 65×10 −7 /° C. 9. The strengthened laminated glass structure of claim 1 , wherein an ion exchanged outer surface region of each of the first clad glass layer and the second clad glass layer is in a state of enhanced compressive stress compared to a non-ion-exchanged outer surface region of the respective first clad glass layer or second clad glass layer. 10. The strengthened laminated glass structure of claim 1 , wherein the second CTE is at least 10×10 −7 /° C. lower than the first CTE. 11. The strengthened laminated glass structure of claim 1 , wherein the second CTE is lower than the first CTE by an amount in a range from 10×10 −7 /° C. to 60×10 −7 /° C. 12. The strengthened laminated glass structure of claim 1 , wherein the second CTE is lower than the first CTE by an amount in a range from 10×10 −7 /° C. to 50×10 −7 /° C. 13. The strengthened laminated glass structure of claim 1 , wherein: the core glass layer comprises a hollow core glass tube, the first surface of the core glass layer is an inner peripheral surface of the hollow core glass tube, and the second surface of the core glass layer is an outer peripheral surface of the hollow core glass tube; the first clad glass layer comprises a first hollow clad glass tube laminated to the outer peripheral surface of the core glass tube; and the second clad glass layer comprises a second hollow clad glass tube laminated to the inner peripheral surface of the core glass tube. 14. The strengthened laminated glass structure of claim 1 , wherein the ion exchangeable glass comprises: about 65 mol. % to about 70 mol. % SiO 2 ; about 9 mol. % to about 14 mol. % Al 2 O 3 ; about 0 mol. % to about 11 mol. % B 2 O 3 ; about 5 mol. % to less than 10 mol. % alkali oxide R 2 O, wherein R is at least one of Li, Na, or K; and about 3 mol. % to about 11 mol. % divalent oxide MO, wherein M is at least one of Mg, Ca, Ba or Zn. 15. A strengthened laminated glass structure comprising: a core glass layer with a first coefficient of thermal expansion (CTE); a first clad glass layer laminated to a first surface of the core glass layer; and a second clad glass layer laminated to a second surface of the core glass layer; wherein each of the first clad glass layer and the second clad glass layer comprises an ion exchangeable glass with a second CTE that is lower than the first CTE of the core glass layer, whereby each of the first clad glass layer and the second clad glass layer is in a state of compressive stress; and wherein an inner surface region of each of the first clad glass layer and the second clad glass layer is in a state of enhanced compressive stress, compared to a non-ion-exchanged region of the respective first clad glass layer or second clad glass layer, resulting from an exchange of high radius ions in the core glass layer with smaller ions in each of the first clad glass layer and the second clad glass layer. 16. The strengthened laminated glass structure of claim 15 , wherein an ion exchanged outer surface region of each of the first clad glass layer and the second clad glass layer is in a state of enhanced compressive stress compared to a non-ion-exchanged outer surface region of the respective first clad glass layer or second clad glass layer.