Chromatography column assembly

What is claimed is: 1. A chromatographic column assembly, comprising: an outer tube comprising a metal; an intermediate tube comprising a polymeric material and disposed within the outer tube; a sorbent bed tube disposed within the intermediate tube and having a first end and a second end opposite the first end; a sorbent bed disposed within the sorbent bed tube; a first inner tube disposed within the intermediate tube and having a first inner tube end abutting the first end of the sorbent bed tube, thereby defining a first tube interface; and a second inner tube disposed within the intermediate tube and having a second inner tube end abutting the second end of the sorbent bed tube, thereby defining a second tube interface, wherein the outer tube is deformed by a first uniform radial crimp at a longitudinal location along the outer tube that spans the first tube interface to form a fluid-tight seal between the first inner tube end and the first end of the sorbent bed tube, wherein the outer tube is deformed by a second uniform radial crimp at a longitudinal location along the outer tube that spans the second tube interface to form a fluid-tight seal between the second inner tube end and the second end of the sorbent bed tube, and wherein the first and second uniform radial crimps each have a substantially flat base region over which a diameter of the outer tube is reduced for a longitudinal length, wherein the longitudinal length of the substantially flat base regions of the first and second uniform radial crimps are each at least one millimeter. 2. The chromatographic column assembly of claim 1 further comprising a pair of frits, one of the frits disposed at an end of the sorbent bed and the other of the frits disposed at an opposite end of the sorbent bed. 3. The chromatographic column assembly of claim 2 wherein each of the frits is disposed within the sorbent bed tube and at an end of the first inner tube. 4. The chromatographic column assembly of claim 2 wherein one of the frits is disposed within the first inner tube at the first inner tube end and the other of the frits is disposed within the second inner tube at the second inner tube end. 5. The chromatographic column assembly of claim 1 wherein an inner diameter of the sorbent bed tube is different from an inner diameter of at least one of the first inner tube and the second inner tube. 6. The chromatographic column assembly of claim 1 wherein an outer diameter of the sorbent bed tube is different from an outer diameter of at least one of the first inner tube and the second inner tube. 7. The chromatographic column assembly of claim 1 wherein the sorbent bed tube comprises fused silica. 8. The chromatographic column assembly of claim 7 wherein the sorbent bed tube and the intermediate tube are formed as an integrated structure. 9. The chromatographic column assembly of claim 1 wherein the sorbent bed tube comprises stainless steel. 10. The chromatographic column assembly of claim 9 wherein the sorbent bed tube and the intermediate tube are formed as an integrated structure. 11. The chromatographic column assembly of claim 1 wherein the intermediate tube has a length that is the same as a length of the sorbent bed tube and further comprising a pair of additional intermediate tubes each disposed within the outer tube and having an end abutting an end of the intermediate tube. 12. The chromatographic column assembly of claim 1 further comprising a ferrule disposed on the outer tube proximate to one end of the outer tube for engaging a coupling body at a fluid port. 13. The chromatographic column assembly of claim 1 , wherein the first and second uniform radial crimps each have a transition region on each side of the substantially flat base region that transitions between the reduced diameter of the substantially flat base region and an uncrimped outer diameter of the outer tube. 14. The chromatographic column assembly of claim 1 , wherein the first and second uniform radial crimps are each formed by a collet having a machined circular bore. 15. A chromatographic column assembly, comprising: an outer tube comprising a metal; an intermediate tube comprising a polymeric material and disposed within the outer tube; a sorbent bed tube formed of fused silica and disposed within the intermediate tube, the sorbent bed tube having a first end and a second end; a sorbent bed disposed within the sorbent bed tube; a first inner tube disposed within the intermediate tube and having a first inner tube end abutting the first end of the sorbent bed tube, thereby defining a first tube interface; a second inner tube disposed within the intermediate tube and having a second inner tube end abutting the second end of the sorbent bed tube, thereby defining a second tube interface; and a pair of frits, each of the frits disposed at an end of the sorbent bed, the outer tube being deformed by a first uniform radial crimp at a longitudinal location that spans the first tube interface to thereby form a fluid-tight seal between the outer tube, intermediate tube, sorbent bed tube and one of the frits, and the outer tube being deformed by a second uniform radial crimp at a longitudinal location that spans the second tube interface to thereby form a fluid-tight seal between the outer tube, intermediate tube, sorbent bed tube and the other of the frits, the first and second uniform radial crimps each having a substantially flat base region over which a diameter of the outer tube is reduced for a longitudinal length, wherein the longitudinal length of the substantially flat base regions of the first and second uniform radial crimps are each at least one millimeter. 16. The chromatographic column assembly of claim 15 wherein the outer tube has two ends and further comprising a first fitting disposed on the outer tube at one of the ends and a second fitting disposed on the outer tube at the other one of the ends. 17. The chromatographic column assembly of claim 15 wherein an inner diameter of the sorbent bed tube is different from an inner diameter of at least one of the first and second inner tubes. 18. The chromatographic column assembly of claim 15 wherein an outer diameter of the sorbent bed tube is different from an outer diameter of at least one of the first and second inner tubes. 19. The chromatographic column assembly of claim 15 , wherein the first and second uniform radial crimps each have a transition region on each side of the substantially flat base region that transitions between the reduced diameter of the substantially flat base region and an uncrimped outer diameter of the outer tube. 20. The chromatographic column assembly of claim 15 , wherein the first and second uniform radial crimps are each formed by a collet having a machined circular bore.