Aluminium oxynitride
Template:Short description Script error: No such module "redirect hatnote". Template:Chembox
Aluminium oxynitride (marketed under the name ALON by Surmet Corporation[1]) is a transparent ceramic composed of aluminium, oxygen and nitrogen. Aluminium oxynitride is optically transparent (≥80% for 2 mm thickness) in the near-ultraviolet, visible, and mid-wave-infrared regions of the electromagnetic spectrum. It is four times as hard as fused silica glass, 85% as hard as sapphire, and nearly 115% as hard as magnesium aluminate spinel. It can be fabricated into transparent windows, plates, domes, rods, tubes, and other forms using conventional ceramic powder processing techniques.Script error: No such module "Unsubst".
Aluminium oxynitride is the hardest polycrystalline transparent ceramic available commercially.[2]Template:Updateinline Because of its relatively low weight, distinctive optical and mechanical properties, and resistance to oxidation or radiation, it shows promise for applications such as bulletproof, blast-resistant, and optoelectronic windows.[3] Aluminium oxynitride-based armor has been shown to stop multiple armor-piercing projectiles of up to .50 BMG.[4]
Properties
Aluminium oxynitride is resistant to various acids, bases, and water.[5]
Mechanical
Aluminium oxynitride has the following mechanical properties:[2]
- Compressive strength 2.68 GPa
- Flexural strength 0.38–0.7 GPa
- Fracture toughness 2.0 MPa·m1/2
- Knoop hardness 1800 kg/mm2 (0.2 kg load)
- Poisson ratio 0.24
- Shear modulus 135 GPa
- Young's modulus 334 GPa
Thermal and optical
Aluminium oxynitride has the following thermal and optical properties:[6]
- Specific heat 0.781 J/(g·K)
- Thermal conductivity 12.3 W/(m·K)
- Thermal expansion coefficient ~4.7Template:E/K
- Transparency range 200–5000 nm
Applications
Aluminium oxynitride is used for infrared-optical windows, with greater than 80% transparency for 2 mm thickness at wavelengths below about 4 micrometers, dropping to near zero at about 6 micrometers.[7] It has also been demonstrated as an interface passivation layer in some semiconductor-related applications.[8]
Aluminium oxynitride has less than half the weight and thickness of glass-based transparent armor.[9] Aluminium oxynitride armor of Template:Convert thickness is capable of stopping .50 BMG armor-piercing rounds, which can penetrate Template:Convert of traditional glass laminate.[7][10]
In 2005, the United States Air Force began testing aluminium-oxynitride-based armor.[11]
Manufacture
Aluminium oxynitride can be fabricated as windows, plates, domes, rods, tubes and other forms using conventional ceramic powder processing techniques. Its composition can vary slightly: the aluminium content from about 30% to 36%, which has been reported to affect the bulk and shear moduli by only 1–2%.[12] The fabricated greenware is subjected to heat treatment (densification) at elevated temperatures followed by grinding and polishing to transparency. It can withstand temperatures of about Template:Convert in inert atmospheres. The grinding and polishing substantially improves the impact resistance and other mechanical properties of armor.[6]
Patents
Patents related to aluminium oxynitride include:
- Aluminium oxynitride having improved optical characteristics and method of manufacture TM Hartnett, RL Gentilman U.S. patent 4481300, 1984
- Process for producing polycrystalline cubic aluminium oxynitride JW McCauley U.S. patent 4241000, 1980
- Transparent aluminium oxynitride and method of manufacture RL Gentilman, EA Maguire U.S. patent 4520116, 1985; U.S. patent 4720362, 1988
- Transparent aluminium oxynitride-based ceramic article JP Mathers U.S. patent 5231062, 1993
See also
- Aluminium nitride
- Corundum
- Transparent ceramics
- Transparent aluminum (material in Star Trek)
- Gorilla Glass
References
External links
- Processing of Optically Transparent Aluminum Oxynitride
- "Solubility Limits of La and Y in Aluminum Oxynitride (AlON) at 1870°C". Lior Miller and Wayne D. Kaplan. Department of Materials Engineering, Technion, Haifa, Israel, 2006.
- The Influence of Sintering Additives on the Microstructure and Properties of ALON. Yechezkel Ashuach. Master's Thesis, Technion – Israel Institute of Technology, 2003.
Template:Aluminium compounds Template:Authority control
- ↑ Template:Cite patent
- ↑ a b Mohan Ramisetty et al. Transparent Polycrystalline Spinels Protect and Defend, American Ceramic Society Bulletin, vol.92, 2, 20–24 (2013)
- ↑ Cite error: Invalid
<ref>tag; no text was provided for refs namedr3 - ↑ Script error: No such module "Citation/CS1".
- ↑ Script error: No such module "Citation/CS1".
- ↑ a b Joseph M. Wahl et al. Recent Advances in ALON Optical Ceramic, Surmet
- ↑ a b Script error: No such module "Citation/CS1".
- ↑ Script error: No such module "Citation/CS1".
- ↑ Security News (2015-06-03). Optically Clear Aluminium Provides Bulletproof Protection. TSS, 3 June 2015. Retrieved on 2015-07-10. Template:Webarchive.
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "citation/CS1".
- ↑ Script error: No such module "Citation/CS1".