Everything about Vitrification totally explained
Vitrification is a process of converting a material into a
glass-like
amorphous solid that's free from any
crystalline structure, either by the quick removal or addition of
heat, or by mixing with an additive. Solidification of a
vitreous solid occurs at the
glass transition temperature (which is lower than
melting temperature,
Tm, due to
supercooling).
When the starting material is solid, vitrification usually involves heating the substances to very high
temperatures. Many
ceramics are produced in such a manner. Vitrification may also occur naturally when
lightning strikes
sand, where the extreme and immediate heat can create hollow, branching rootlike structures of glass, called
fulgurite. When applied to whiteware ceramics, vitreous means the material has an extremely low
permeability to liquids, often but not always water, when determined by a specified test regime. The microstructure of whiteware ceramics frequently contain both
amorphous and crystalline phases.
Examples
When
sucrose is cooled slowly, the result is crystal
sugar (or
rock candy), but, when cooled rapidly, the result can be in the form of syrupy
cotton candy (candyfloss). Vitrification can also occur when starting with a liquid such as water, usually through very rapid cooling or the introduction of agents that suppress the formation of
ice crystals. Additives used in
cryobiology or produced naturally by organisms living in
polar regions are called
cryoprotectants.
Arctic frogs and some other
ectotherms naturally produce
glycerol or
glucose in their
livers to reduce ice formation. When glucose is used as a cryoprotectant by Arctic frogs, massive amounts of glucose are released at low temperature, and a special form of
insulin allows for this extra glucose to enter the cells. When the frog rewarms during
spring, the extra glucose must be rapidly removed from the cells and recycled via renal excretion and storage in the bladder. Arctic
insects also use sugars as cryoprotectants. Arctic fish use
antifreeze proteins, sometimes appended with sugars, as cryoprotectants.
Applications
Ordinary soda-lime
glass, used in windows and drinking containers, is created by the addition of
sodium carbonate and lime (
calcium oxide) to
silicon dioxide. Without these additives, silicon dioxide will (with slow cooling) form
sand or
quartz crystal, not glass.
Vitrification is a proven technique in the disposal and long-term storage of
nuclear waste or other hazardous wastes. Waste is mixed with glass-forming chemicals to form molten glass that then solidifies, immobilizing the waste. The final waste form resembles
obsidian and is a non-
leaching, durable material that effectively traps the waste inside. The waste can be stored for relatively long periods in this form without concern for
air or
groundwater contamination. Bulk vitrification uses
electrodes to melt soil and wastes where they lay buried. The hardened waste may then be disinterred with less danger of widespread contamination. According to the
Pacific Northwest National Labs, "Vitrification locks dangerous materials into a stable glass form that will last for thousands of years."
Ethylene glycol is used as automotive
antifreeze and
propylene glycol has been used to reduce ice crystals in
ice cream, making it smoother.
For years,
glycerol has been used in
cryobiology as a cryoprotectant for blood cells and
bull sperm, allowing storage at
liquid nitrogen temperatures. However, glycerol can't be used to protect whole
organs from damage. Instead, many biotechnology companies are
currently researching the development of other cryoprotectants more suitable for such uses. A successful discovery may eventually make possible the bulk
cryogenic storage (or "banking") of
transplantable human and
xenobiotic organs. A substantial step in that direction has already occurred. At the July 2005 annual conference of the Society for
Cryobiology,
Twenty-First Century Medicine announced the vitrification of a
rabbit kidney to -135°C with their proprietary vitrification cocktail. Upon rewarming, the kidney was successfully transplanted into a rabbit, with complete functionality and viability.
In the context of
cryonics, especially in preservation of the
human brain, vitrification of tissue is thought to be necessary to prevent destruction of the tissue or information encoded in the brain. At present, vitrification techniques have only been applied to brains (
neurovitrification) by
Alcor and to the upper body by the
Cryonics Institute, but research is in progress by both organizations to apply vitrification to the whole body.
Further Information
Get more info on 'Vitrification'.
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