Tempered or toughened glass is a type of safety glass processed by controlled thermal or chemical treatments to increase its strength compared with normal glass. Tempering puts the outer surfaces into compression and the interior into tension. Such stresses cause the glass, when broken, to shatter into small granular chunks instead of splintering into jagged shards as ordinary annealed glass does. The granular chunks are less likely to cause injury.
Tempered glass is used for its safety and strength in a variety of applications, including passenger vehicle windows (apart from windshield), shower doors, aquariums, architectural glass doors and tables, refrigerator trays, mobile phone screen protectors, bulletproof glass components, diving masks, and plates and cookware.
Properties
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Tempered glass of car rear window. Variations in glass stress are clearly seen when the glass is photographed through a polarizing filter (bottom picture).Tempered glass is about four times stronger than annealed glass.[1][2] The more rapid contraction of the outer layer during manufacturing induces compressive stresses in the surface of the glass balanced by tensile stresses in the body of the glass. Fully tempered 6-mm thick glass must have either a minimum surface compression of 69 MPa (10 000 psi) or an edge compression of not less than 67 MPa (9 700 psi).[3] For it to be considered safety glass, the surface compressive stress should exceed 100 megapascals (15,000 psi). As a result of the increased surface stress, when broken the glass breaks into small rounded chunks as opposed to sharp jagged shards.
Compressive surface stresses give tempered glass increased strength. Annealed glass has almost no internal stress and usually forms microscopic cracks on its surface. Tension applied to the glass can drive crack propagation which, once begun, concentrates tension at the tip of the crack driving crack propagation at the speed of sound through the glass.[citation needed] Consequently, annealed glass is fragile and breaks into irregular and sharp pieces.[4] The compressive stresses on the surface of tempered glass contain flaws, preventing their propagation or expansion.
Any cutting or grinding must be done prior to tempering. Cutting, grinding, and sharp impacts after tempering will cause the glass to fracture.
The strain pattern resulting from tempering can be observed by viewing through an optical polarizer, such as a pair of polarizing sunglasses.
Uses
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Safety approval markings on an automobile vent window made for a Chrysler car by PPG. Police van with screen protectorTempered glass is used when strength, thermal resistance, and safety are important considerations. Passenger vehicles, for example, have all three requirements. Since they are stored outdoors, they are subject to constant heating and cooling as well as dramatic temperature changes throughout the year. Moreover, they must withstand small impacts from road debris such as stones as well as road accidents. Because large, sharp glass shards would present additional and unacceptable danger to passengers, tempered glass is used so that if broken, the pieces are blunt and mostly harmless. The windscreen or windshield is instead made of laminated glass, which will not shatter into pieces when broken while side windows and the rear windshield have historically been made of tempered glass. Some newer luxury vehicles have laminated side windows to meet occupancy retention regulations, anti-theft purposes, or sound-deadening purposes.
Other typical applications of tempered glass include:
Buildings and structures
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Tempered glass is also used in buildings for unframed assemblies (such as frameless glass doors), structurally loaded applications, and any other application that would become dangerous in the event of human impact. Building codes in the United States require tempered or laminated glass in several situations including some skylights, glass installed near doorways and stairways, large windows, windows which extend close to floor level, sliding doors, elevators, fire department access panels, and glass installed near swimming pools.[5]
Household uses
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Tempered glass is also used in the home. Some common household furniture and appliances that use tempered glass are frameless shower doors, glass table tops, glass shelves, cabinet glass and glass for fireplaces.
Food service
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"Rim-tempered" indicates that a limited area, such as the rim of the glass or plate, is tempered, and is popular in food service. There are also fully tempered variants for strength and thermal shock resistance. Some countries specify requirements regarding this.
Tempered glass has also seen increased usage in bars and pubs, particularly in the United Kingdom and Australia, to prevent broken glass being used as a weapon.[6][7]
Cooking and baking
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Some forms of tempered glass are used for cooking and baking. Manufacturers and brands include Glasslock, Pyrex, Corelle, and Arc International. This is also the type of glass used for oven doors.
Touchscreen devices
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Most touchscreen mobile devices use some form of toughened glass (such as Corning's Gorilla Glass), but there are also separate tempered screen protectors for touchscreen devices sold as an accessory.[8]
Manufacturing
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Tempered safety glass which has been laminated often does not fall out of its frame when it breaks – usually because an anti-splinter film has been applied on the glass, as seen in this grocery store meat case.Tempered glass can be made from annealed glass via a thermal tempering process. The glass is placed onto a roller table, taking it through a furnace that heats it well above its transition temperature of 564 °C (1,047 °F) to around 620 °C (1,148 °F). The glass is then rapidly cooled with forced air drafts while the inner portion remains free to flow for a short time.
An alternative chemical toughening process involves forcing a surface layer of glass at least 0.1 mm thick into compression by ion exchange of the sodium ions in the glass surface with potassium ions (which are 30% larger), by immersion of the glass into a bath of molten potassium nitrate. Chemical toughening results in increased toughness compared with thermal tempering and can be applied to glass objects of complex shapes.[9]
Disadvantages
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Tempered glass must be cut to size or pressed to shape before tempering, and cannot be re-worked once tempered. Polishing the edges or drilling holes in the glass is carried out before the tempering process starts. Because of the balanced stresses in the glass, damage to any portion will eventually result in the glass shattering into thumbnail-sized pieces. The glass is most susceptible to breakage due to damage at its edge, where the tensile stress is the greatest, but can also shatter in the event of a hard impact in the middle of the glass pane or if the impact is concentrated (for example, the glass is struck with a hardened point).
Using tempered glass can pose a security risk in some situations because of the tendency of the glass to shatter completely upon hard impact rather than leaving shards in the window frame.[10]
The surface of tempered glass does exhibit surface waves caused by contact with flattening rollers, if it has been formed using this process. This waviness is a significant problem in manufacturing of thin film solar cells.[11] The float glass process can be used to provide low-distortion sheets with very flat and parallel surfaces as an alternative for different glazing applications.[12]
Spontaneous glass breakage
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Spontaneous glass breakage is a phenomenon by which toughened glass (or tempered) may spontaneously break without any apparent reason. The most common causes are:[13][14]
Any breakage problem has more severe consequences where the glass is installed overhead or in public areas (such as in high-rise buildings). A safety window film can be applied to the tempered panes of glass to protect from its falling. An old-fashioned precaution was to install metal screens below skylights.
History
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Francois Barthelemy Alfred Royer de la Bastie (1830–1901) of Paris, France is credited with first developing a method of tempering glass[16] by quenching almost molten glass in a heated bath of oil or grease in 1874, the method patented in England on August 12, 1874, patent number 2783. Tempered glass is sometimes known as Bastie glass after de la Bastie. In 1877 the German Friedrich Siemens developed a different process, sometimes called compressed glass or Siemens glass, producing a tempered glass stronger than the Bastie process by pressing the glass in cool molds.[17] The first patent on a whole process to make tempered glass was held by chemist Rudolph A. Seiden who was born in 1900 in Austria and emigrated to the United States in 1935.[18]
Though the underlying mechanism was not known at the time, the effects of "tempering" glass have been known for centuries. In about 1660, Prince Rupert of the Rhine brought the discovery of what are now known as "Prince Rupert's Drops" to the attention of King Charles II. These are teardrop-shaped bits of glass which are produced by allowing a molten drop of glass to fall into a bucket of water, thereby rapidly cooling it. They can withstand a blow from a hammer on the bulbous end without breaking, but the drops will disintegrate explosively into powder if the tail end is even slightly damaged.
See also
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References
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History of tempered glass
The development of tempered glass, also called physical hardening can be traced back to the middle of the 17 th century.
The method of annealing comprises heating the glass up to a softening temperature and its immediate placement in a water bath at a relatively low temperature in order to increase its resilience to external influences. This is a method of early hardening liquid.
In 1875. German Frederick Siemens receives first patent, and in Massachusetts in 1876. Geovge E. Rogens the method for hardening on the glass and street lamp. In the same year in New Jersey, Hugho'heill receive a patent.
The history of tempered glass in China began in 1955. At this time in Shan Hai, Yaohua Glass Factory began trial production during 1965. placed first tempered glass on the market.
In 1970. technology tempering the glass gets popularity worldwide. Tempered glass began to be applied in many industries, particularly in the automotive and construction, where there are conditions for the fastest economic growth.
Tempered glass is done using a specially heated furnaces that it heated under a constant temperature of about 700 ° C. When the glass out of the furnace is cooled rapidly, it puts the glass surface in a state of compression, while in the middle and left voltage.
Annealing method:
Tempering of glass is performed by uniformly heating to 700 ° C temperature with immediate cooling. Glass first passes through the furnace-driven rollers, where it is heated in three modes - conduction, convection and radiation. Rolls conduct heat and the coils help in broadcasting and. The effect of convection caused by air exiting through the nozzles, thus circulates heat evenly and heat from all sides. Then the hot glass is subjected to rapid cooling.
After tempering, the mechanical strength of tempered glass is 4-5 times higher than that of ordinary glass. Tempered glass has a higher thermal stability and can withstand high temperatures up to 250 ° C, is practically considered to be unbreakable. It is hard to break, but even in this case it breaks into small relatively harmless particles.
Hardening does not change the basic characteristics of glass as transmission of light, sun and heat, ie possess the qualities of normal glass. The surface of the glass after heat treatment has a high resistance to damage, then you can not be cut or altered.
One problem that can occur in the process of tempering glass is broken spontaneously for no apparent reason.
Need for annealing of glass
Toughening increases the tensile strength, thermal stability and safety of normal glass. It also increases the capacity of absorption of heat. Due to these properties, the tempered glass is preferable in use, because these parameters are important considerations.
characteristic fracture
Heat resistance:
Uneven heating from direct sunlight causes a sharp expansion and contraction of the glass, which can lead to breakage. When the temperature difference is below 32 ° C, the risk of thermal breakage of glass is low, but when the difference is increased, the risk increases significantly.
thermal breakage
Thermal breakage starts from the edge and perpendicular to it.
Application of tempered glass:
Tempered glass is specially designed for use in areas where there is high risk of fracture because it is harder to break or scratch. There is a wide scope for its use in the construction industry. Application is in the construction of exterior and interior walls, showroom shelves and shelves, shower cabins, shower screens, doors, awnings, roofs and much more.