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(Top) 1 Properties 2 Uses 3 See also 4 References 5 External links

Magnalium

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Magnalium is an aluminium alloy with 5% magnesium and 95% aluminum.

Properties[edit]

Alloys with small amounts of magnesium (about 5%) exhibit greater strength, greater corrosion resistance, and lower density than pure aluminium. Such alloys are also more workable and easier to weld than pure aluminum.^[1] Alloys with high amounts of magnesium (around 50%) are brittle and more susceptible to corrosion than aluminum.

Uses[edit]

Although they are generally more expensive than aluminium, the high strength, low density, and greater workability of alloys with low amounts of magnesium leads to their use in aircraft and automobile parts.

Alloys with about 50% magnesium are brittle and corrode easily, which makes them unsuitable for most engineering uses. However, these alloys are flammable when powdered, are more resistant to corrosion than pure magnesium, and are more reactive than pure aluminium and are therefore used in pyrotechnics as a metal fuel and to produce sparks. Due to the high reactivity, magnalium burns comparably hot and forms bright yellowish white sparks.^[2] Magnalium powder also burns with a crackling sound if burnt by itself, and provides a good compromise between the reactivity of magnesium and the stability of aluminium. Another benefit for pyrotechnics is the brittleness of the alloy, as mentioned before. It is easily broken with a hammer and then ground in a coffee grinder to usable powder. It will grind in a ball mill into a fine powder in a matter of hours, as opposed to a matter of days with aluminium powder. It is much more powerful than aluminium powder (when compared at similar mesh size) and similar precautions should be taken as per magnesium. These include dangers of moisture and incompatibility with other compounds (boric acid and ammonium compounds). It is also used for making balance beams and other components of light instruments.

References[edit]

^ magnalium — Infoplease.com

^ Kenneth L. Kosanke; Bonnie J. Kosanke (1999), "Pyrotechnic Spark Generation", Journal of Pyrotechnics: 49–62, ISBN 978-1-889526-12-6

External links[edit]

v t e Aluminium alloys
Introduction	Aluminium Aluminium alloys History of aluminium
Al 1000 series (pure)	1050 1060 1070 1100 1145 1199 1200 1230 1350 1370 1420 1421 1424 1430 1440 1441 1445 1450 1460 1461 1464 1469
Al-Cu 2000 series	2004 2011 2014 2017 2020 2024 2025 2029 2036 2048 2055 2080 2090 2091 2094 2095 2097 2098 2099 2124 2195 2196 2197 2198 2218 2219 2224&2324 2297 2319 2397 2519 2524 2618
Al-Mn 3000 series	3003 3004 3005 3102 3102&3303 3105 3203
Al-Si 4000 series	4006 4007 4015 4032 4043 4047 4543
Al-Mg 5000 series	5005&5657 5010 5019 5024 5026 5050 5052&5652 5056 5059 5083 5086 5154&5254 5182 5252 5356 5454 5456 5457 5557 5754
Al-Mg-Si 6000 series	6005 (6005A) 6009 6010 6013 6022 6060 6061 6063 6065 6066 6070 6081 6082 6101 6105 6113 6151 6162 6201 6205 6262 6351 6463 6951
Al-Zn 7000 series	7005 7010 7022 7034 7039 7046 7050 7055 7065 7068 7072 7075 7079 7085 7090 7091 7093 7116 7129 7150 7178 7255 7475
8000 series (misc.)	8006 8009 8011 8014 8019 8025 8030 8090 8091 8093 8176
Named alloys	Aluminium–lithium alloys AlBeMet Alclad Alnico AlSiC Alumel Aluminium granules Alusil Birmabright Devarda's alloy Duralumin Hiduminium (aka R.R. alloys) Hydronalium Italma Lo-Ex Magnalium Magnox (alloy) MKM steel Nickel aluminide Aluminium–scandium alloys Y alloy Al-Ca composite Hypereutectic piston Aluminium bronze AlSi10Mg

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