Mark Ford, fabrication development manager at AFG Industries, Inc., explains:
 Image: AFG INDUSTRIES TESTING THE GLASS involves punching it to make certain that the glass breaks into a lot of small, similarly sized pieces. One can ascertain whether the glass has been properly tempered based on the pattern in the glass breaks. |
Tempered glass is about four times stronger than "ordinary," or annealed, glass. And unlike annealed glass, which can shatter into jagged shards when broken, tempered glass fractures into small, relatively harmless pieces. As a result, tempered glass is used in those environments where human safety is an issue. Applications include side and rear windows in vehicles, entrance doors, shower and tub enclosures, racquetball courts, patio furniture, microwave ovens and skylights.
To prepare glass for the tempering process, it must first be cut to the desired size. (Strength reductions or product failure can occur if any fabrication operations, such as etching or edging, take place after heat treatment.) The glass is then examined for imperfections that could cause breakage at any step during tempering. An abrasive¿such as sandpaper¿takes sharp edges off the glass, which is subsequently washed.
 Image: AFG INDUSTRIES GLASS INSPECTOR examines a sheet of tempered glass, looking for bubbles, stones, scratches or any other flaws that could potentially weaken it. |
Next, the glass begins a heat treatment process in which it travels through a tempering oven, either in a batch or continuous feed. The oven heats the glass to a temperature of more than 600 degrees Celsius. (The industry standard is 620 degrees Celsius.) The glass then undergoes a high-pressure cooling procedure called "quenching." During this process, which lasts just seconds, high-pressure air blasts the surface of the glass from an array of nozzles in varying positions. Quenching cools the outer surfaces of the glass much more quickly than the center. As the center of the glass cools, it tries to pull back from the outer surfaces. As a result, the center remains in tension, and the outer surfaces go into compression, which gives tempered glass its strength.
Glass in tension breaks about five times more easily than it does in compression. Annealed glass will break at 6,000 pounds per square inch (psi). Tempered glass, according to federal specifications, must have a surface compression of 10,000 psi or more; it generally breaks at approximately 24,000 psi.
Another approach to making tempered glass is chemical tempering, in which various chemicals exchange ions on the surface of the glass in order to create compression. But because this method costs far more than using tempering ovens and quenching, it is not widely used.
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2 Comments
Add CommentThis article is very useful and easy to understand. It made me comprehend the process of glass tempering in just a matter of minutes. Thanks to the brilliant author!
Reply | Report Abuse | Link to thisDoes anyone knows?...
Reply | Report Abuse | Link to this-for how long do I have to let the glass inside the furnace at wich temperature?
-How much time does the quenching must last?
-Wich temperatures does the quenching must reach?
-Does the thickness of the glass matters?
Id love to find a CHART on the internet wich explains me the necessary amount of heat, the minutes that the heating must last acording to the thickness of the glass (1/4", 1/2", 3/8" etc)
If anyone knows this information it would be very grateful