Localized heating techniques incorporating tunable infrared element(s) for vacuum insulating glass units, and/or apparatuses for same

What is claimed is: 1. A method of making a vacuum insulated glass (VIG) unit comprising an edge seal, the method comprising: inserting a subassembly for a VIG unit including first and second glass substrates with seal material comprising frit therebetween into an apparatus including: a plurality of infrared (IR) heating elements that comprise bulbs controllable to emit IR radiation at a peak wavelength in the near infrared (NIR) and/or short wave infrared (SWIR) band(s), the plurality of IR heating elements being spaced apart from one another so as to have a 2-6″ center-to-center distance and being vertically positioned 2-10″ above an upper surface and/or below a lower surface of the VIG subassembly, heating frit of the seal material provided proximate the periphery of the subassembly via the plurality of IR heating elements in forming the edge seal, the amount of voltage being supplied to the plurality of IR heating elements being adjustable to vary the peak wavelength produced by the plurality of IR heating elements so as to preferentially heat the frit compared to glass substrates of the VIG subassembly, and during said heating when approximately half of the bulbs are in an “on” state for heating the seal material, approximately the other half of the bulbs are in an “off” state so that approximately half bulb density is employed during said heating. 2. The method of claim 1 , wherein the peak wavelength is between 1300-1700 nm. 3. The method of claim 1 , wherein the peak wavelength is selected so that at least about three times as much energy is absorbable by the frit as compared to glass substrates of the subassembly. 4. The method of claim 1 , wherein the IR heating elements are oriented at approximately 90 degree angles relative to a surface on which they are mounted. 5. The method of claim 1 , wherein the IR heating elements are oriented at approximately 45 degree angles relative to a surface on which they are mounted. 6. The method of claim 1 , maintaining a stable heating environment in which the temperature across the subassembly varies by no more than ±5degrees C. 7. The method of claim 1 , further comprising maintaining an interior of the apparatus at a first elevated temperature via the IR heat elements and without the use of any further heating elements, the first elevated temperature being lower than a temperature needed to form the edge seal. 8. The method of claim 7 , further comprising adjusting the output of the TR heating elements via voltage changes to move from the first elevated temperature to the temperature needed to form the edge seal once the subassembly has been inserted into the apparatus. 9. The method of claim 1 , wherein glass substrates of the subassembly do not reach a temperature of 325 degrees C. for longer than 1 minute during the heating of the frit material. 10. A method of making a vacuum insulated glass (VIG) unit comprising an edge seal, the method comprising: providing a subassembly for a VIG unit in an apparatus including at least one heating area, the subassembly for the VIG unit including first and second tempered glass substrates with spacers, a gap and seal material comprising frit located at least partially between the glass substrates, wherein a periphery of the gap is defined by the seal material; the apparatus including a plurality of infrared (IR) heating elements that comprise bulbs which are controllable to emit IR radiation at a peak wavelength in the near infrared (NIR) and/or short wave infrared (SWIR) band(s), heating frit of the seal material provided proximate the periphery of the subassembly via the plurality of IR heating elements in forming the edge seal so as to preferentially heat the frit compared to glass substrates of the VIG subassembly, and during said heating when approximately half of the bulbs in the heating area are in an “on” state for heating the seal material, approximately the other half of the bulbs in the heating area are in an “off” state so that approximately half bulb density is employed during said heating. 11. The method of claim 10 , wherein the peak wavelength is between 1300-1700 nm. 12. The method of claim 10 , wherein the peak wavelength is selected so that at least about three times as much energy is absorbable by the frit as compared to glass substrates of the subassembly. 13. The method of claim 10 , further comprising adjusting voltage provided to the bulbs in order to adjust the peak wavelength(s). 14. The method of claim 10 , further comprising evacuating the gap to a pressure less than atmospheric pressure after said heating. 15. A method of making a vacuum insulated glass (VIG) unit comprising an edge seal, the method comprising: providing a subassembly for a VIG unit in an apparatus including at least one heating area, the subassembly for the VIG unit including first and second glass substrates with spacers, a gap and seal material comprising frit located at least partially between the glass substrates, wherein a periphery of the gap is defined by the seal material; the apparatus including a plurality of infrared (IR) heating elements which are controllable to emit IR radiation at a peak wavelength in the near infrared (NIR) and/or short wave infrared (SWIR) band(s), heating frit of the seal material provided proximate the periphery of the subassembly via the plurality of IR heating elements in forming the edge seal so as to preferentially heat the frit compared to glass substrates of the VIG subassembly, during said heating when a first portion of the IR heating elements in the heating area are in an “on” state for heating the seal material approximately the remainder of the IR heating elements in the heating area are in an “off” state so that only partial IR heating element density is employed during said heating; and wherein glass substrates of the subassembly do not reach a temperature of 325 degrees C. for longer than 1 minute during the heating of the frit material.