Glass articles made from laminated glass tubing and systems and methods for converting laminated glass tubing into the glass articles

What is claimed is: 1. A method for producing glass articles from glass tubing, the method comprising: introducing the glass tubing to a converter comprising at least one forming station and a separating station, the glass tubing comprising laminated glass tubing having a core layer comprising a core glass composition, an outer clad layer comprising an outer glass composition, and an inner clad layer comprising an inner glass composition, wherein the core layer is under tensile stress and at least one of the inner clad layer or the outer clad layer is under compressive stress; forming at least one feature of the glass article at a working end of the laminated glass tubing; separating a glass article from the working end of the laminated glass tubing, wherein separating the glass article from the laminated glass tubing exposes a portion of the core layer at the working end of the laminated glass tubing; and remediating the exposed portion of the core layer, wherein remediating the exposed portion of the core layer comprises: heating the inner clad layer, the outer clad layer, or both proximate the exposed portion of the core layer to a temperature at which a viscosity of the inner glass composition, the outer glass composition, or both enables deforming of the inner clad layer, the outer clad layer, or both; and translating an inner trimming tool, an outer trimming tool, or both to bring the inner trimming tool and the outer trimming tool into close contact proximate the exposed portion of the core layer, wherein bringing the inner trimming tool and the outer trimming tool into close contact deforms the inner clad layer, the outer clad layer, or both until the inner clad layer and the outer clad layer are contacted to completely enclose the core layer. 2. The method of claim 1 , wherein completely enclosing the core layer within the clad layer isolates the core layer from external sources of surface damage. 3. The method of claim 1 , wherein the exposed portion of the core layer is disposed at an axial surface of the working end of the laminated glass tubing prior to remediating the exposed portion of the core layer. 4. The method of claim 1 , wherein the inner glass composition and the outer glass composition are different than the core glass composition. 5. The method of claim 1 , wherein remediating the exposed portion of the core layer comprises: heating the inner clad layer, the outer clad layer, or both at the working end of the laminated glass tubing; and bringing the inner trimming tool and the outer trimming tool into close contact at the working end of the laminated glass tubing, wherein bringing the inner trimming tool and the outer trimming tool into close contact deforms the inner clad layer, the outer clad layer, or both at the working end of the laminated glass tubing to contact the inner clad layer and the outer clad layer to completely enclose the core layer. 6. The method of claim 1 , wherein remediating the exposed portion of the core layer comprises separating a glass piece from the working end of the laminated glass tubing. 7. The method of claim 6 , wherein separating the glass piece from the working end of the laminated glass tubing comprises: heating a trimming region of the laminated glass tubing, wherein the trimming region is spaced apart axially from the working end of the laminated glass tubing; and bringing the inner trimming tool and the outer trimming tool into close contact at the trimming region of the laminated glass tubing, wherein bringing the inner trimming tool and the outer trimming tool into close contact deforms the inner clad layer, the outer clad layer, or both until the inner clad layer and the outer clad layer are contacted at the trimming region and separates the glass piece from the working end of the laminated glass tubing. 8. The method of claim 7 , wherein bringing the inner trimming tool and outer trimming tool into close contact to deform the inner clad layer and the outer clad layer into contact in the trimming region completely encloses the core layer at a new working end of the laminated glass tubing. 9. The method of claim 1 , wherein bringing the inner trimming tool and the outer trimming tool into close contact comprises horizontally translating the inner trimming tool, the outer trimming tool, or both. 10. The method of claim 1 , comprising translating the inner trimming tool, the outer trimming tool, or both into close contact at a rate slow enough to reduce forces exerted on the laminated glass tubing to avoid breaking the laminated glass tubing. 11. The method of claim 1 , comprising bringing the inner trimming tool and the outer trimming tool into close contact over a trimming time of from 0.1 seconds to 10 seconds. 12. The method of claim 1 , wherein bringing the inner trimming tool and the outer trimming tool into close contact comprises: translating the inner trimming tool, the outer trimming tool, or both to bring the inner trimming tool and the outer trimming tool part way into close contact; re-heating the inner clad layer, the outer clad layer, or both proximate the exposed portion of the core layer; and translating the inner trimming tool, the outer trimming tool, or both to bring the inner trimming tool and the outer trimming tool the rest of the way into close contact. 13. The method of claim 1 , further comprising pre-heating the inner trimming tool, the outer trimming tool, or both to a tooling temperature of from 100° C. to 600° C.