Difference between revisions of "Magnet"

From Sciencemadness Wiki
Jump to: navigation, search
(Physical)
Line 1: Line 1:
 
{{stub}}
 
{{stub}}
{{Chembox
 
| Name = Neodymium-iron-boron magnet
 
| Reference =
 
| IUPACName = N/A
 
| PIN =
 
| SystematicName =
 
| OtherNames = Neodymium magnet, neo-magnet
 
<!-- Images -->
 
| ImageFile =
 
| ImageSize =
 
| ImageAlt =
 
| ImageName =
 
| ImageFile1 =
 
| ImageSize1 =
 
| ImageAlt1 =
 
| ImageName1 =
 
| ImageFile2 =
 
| ImageSize2 =
 
| ImageAlt2 =
 
| ImageName2 =
 
| ImageFile3 =
 
| ImageSize3 =
 
| ImageAlt3 =
 
| ImageName3 =
 
| ImageFileL1 =
 
| ImageSizeL1 =
 
| ImageAltL1 =
 
| ImageNameL1 =
 
| ImageFileR1 =
 
| ImageSizeR1 =
 
| ImageAltR1 =
 
| ImageNameR1 =
 
| ImageFileL2 =
 
| ImageSizeL2 =
 
| ImageAltL2 =
 
| ImageNameL2 =
 
| ImageFileR2 =
 
| ImageSizeR2 =
 
| ImageAltR2 =
 
| ImageNameR2 =
 
<!-- Sections -->
 
| Section1 = {{Chembox Identifiers
 
| 3DMet =
 
| Abbreviations =
 
| SMILES =
 
  }}
 
| Section2 = {{Chembox Properties
 
| AtmosphericOHRateConstant =
 
| Appearance = Metallic gray alloy
 
| BoilingPt =
 
| BoilingPtC =
 
| BoilingPt_ref =
 
| BoilingPt_notes =
 
| Density = 7.4 g/cm^3
 
| Formula = Nd<sub>2</sub>Fe<sub>14</sub>B + various trace materials
 
| HenryConstant =
 
| LogP =
 
| MolarMass = 1081.15 g/mol
 
| CurieTemperature = 340 C
 
| MeltingPt =
 
| MeltingPtC =
 
| MeltingPt_ref =
 
| MeltingPt_notes =
 
| Odor = Odorless
 
| pKa =
 
| pKb =
 
| Solubility = Insoluble
 
| SolubleOther = Insoluble in organic solvents
 
| Solvent =
 
| VaporPressure =
 
  }}
 
| Section3 = {{Chembox Structure
 
| Coordination =
 
| CrystalStruct =
 
| MolShape =
 
  }}
 
| Section4 = {{Chembox Thermochemistry
 
| DeltaGf =
 
| DeltaHc =
 
| DeltaHf =
 
| Entropy =
 
| HeatCapacity =
 
  }}
 
| Section5 = {{Chembox Explosive
 
| ShockSens =
 
| FrictionSens =
 
| DetonationV =
 
| REFactor =
 
  }}
 
| Section6 = {{Chembox Hazards
 
| AutoignitionPt =
 
| ExploLimits =
 
| ExternalMSDS = [https://www.docdroid.net/98D4aIW/neodymiumiii-oxalate-hydrate-sa.pdf.html Sigma-Aldrich] (hydrate)
 
| FlashPt =
 
| LD50 =
 
| LC50 =
 
| MainHazards = Irritant
 
| NFPA-F =
 
| NFPA-H =
 
| NFPA-R =
 
| NFPA-S =
 
  }}
 
| Section7 = {{Chembox Related
 
| OtherAnions =
 
| OtherCations = [[Neodymium]], [[Neodymium oxalate]]
 
| OtherFunction =
 
| OtherFunction_label =
 
| OtherCompounds =
 
  }}
 
}}
 
Neodymium magnets are a commonly-encountered form of magnetic material that are used by amateur chemists to prepare neodymium compounds.
 
==Properties==
 
===Chemical===
 
The alloy inside the magnets is primarily composed of macroscopic Nd<sub>2</sub>Fe<sub>14</sub>B grains, surrounded by a Nd-rich matrix layer (~90% Nd). For amateur chemist purposes, they can be assumed to be composed entirely of Nd<sub>2</sub>Fe<sub>14</sub>B alloy.
 
  
Neodymium magnets are plated in a oxidation-resistant layer of copper, nickel, and/or gold, with possible tin and mercury additives. When this layer is broken, they will react vigorously with acids to produce corresponding neodymium and iron salts, as well as boron or boric acid depending on the acid chosen.
+
Magnets are a commonly-encountered form of material that can be useful to the amateur chemist.
  
2 Nd<sub>2</sub>Fe<sub>14</sub>B + 35 H<sub>2</sub>SO<sub>4</sub> -> 4 Nd<sub>2</sub>(SO<sub>4</sub>)<sub>3</sub> + 28 FeSO<sub>4</sub> + 2 H<sub>3</sub>BO<sub>3</sub> + 3 SO<sub>2</sub> + 35 H<sub>2</sub>
+
==General magnetic properties==
  
===Physical===
+
==Curie temperature==
Neodymium magnets are a dark gray, grainy sintered alloy coated with a mechanically polished, electroplated layer of protective metals such as nickel, copper, tin, and/or gold.
+
The Curie temperature represents the temperature at which all magnetic crystal domains will realign randomly, effectively causing the magnet to lose all traces of magnetic force. This temperature is useful for removing the dangerous magnetic fields of stronger magnets.
 +
 
 +
==Magnetic field strength==
 +
The magnetic field strength is how much force the magnet can exert at a given size and magnetization. For example, a 1-pound 2"x2"x1" block of neodymium-iron-boron alloy, when fully magnetized, can lift over 500 pounds of weight.
 +
 
 +
==Types of magnets==
 +
 
 +
==Neodymium-iron-boron magnets==
 +
Neodymium magnets are composed of an alloy of [[neodymium]], [[iron]] and [[boron]] surrounded by a protective, oxygen-excluding metallic shell. See [[Neodymium iron boron magnet]] for more information. These magnets are approximately 27% Nd by weight. The typical range of Curie temperature for this alloy is 310 to 340 degrees C. These alloys may contain significant (>10%) amounts of [[cerium]], [[gadolinium]], [[praseodymium]], and other rare earths, as substituting these for Nd does not significantly impact the magnetic properties.
 +
 
 +
==Samarium-cobalt magnets==
 +
Samarium-cobalt magnets are composed of an alloy of [[samarium]] and [[cobalt]], typically surrounded by a protective metallic or Teflon shell. Some laboratory stir bars may use the SmCo alloy as the magnetic material owing to its higher temperature resistance than neodymium magnets. Two types of SmCo alloys are commonly made: SmCo<sub>5</sub> and Sm<sub>2</sub>Co<sub>17</sub>. The first is approximately 34% Sm by weight, and the second is approximately 23% Sm by weight. The typical range of Curie temperature for this alloy is 700 to 800 degrees C.
 +
 
 +
==Alnico magnets==
 +
Alnico magnets are composed of an alloy of [[aluminium]], [[nickel]] and [[cobalt]], hence the name. These magnets' composition is not as tightly controlled as are rare-earth magnets', and as such the magnet composition can consist of a range of 8-12% Al, 15-26% Ni, 5-24% Co, 0-6% Cu, 0-1% Ti, and the remainder is Fe.
 +
 
 +
==Ferrite magnets==
 +
Ferrite magnets are chiefly composed of a ceramic magnetic crystal form of [[iron oxide]], with trace additions of nickel, manganese, zinc, strontium, and/or barium to create a spinel crystal structure consisting of the compound AB<sub>2</sub>O<sub>4</sub>, where A is Fe, B is some 2+ cation such as zinc or barium, and O is oxygen.
  
 
==Projects==
 
==Projects==
 
*[http://www.sciencemadness.org/talk/viewthread.php?tid=14145 Isolation of neodymium from magnets]
 
*[http://www.sciencemadness.org/talk/viewthread.php?tid=14145 Isolation of neodymium from magnets]
 +
*[http://www.sciencemadness.org/talk/viewthread.php?tid=17986 Samarium from SmCo5 magnets]
  
 
==Handling==
 
==Handling==
 
===Safety===
 
===Safety===
Neodymium is a heavy metal, and as such is toxic if ingested. Standard gloves should be safe to handle neodymium compounds with.
+
Rare earths can cause heavy metal poisoning if ingested, but are otherwise safe to handle with basic PPE. Magnetized materials, however, can exert strong enough forces to injure the human body, and should thus be either demagnetized at their Curie temperature or kept away from other magnetic/ferrous materials.
  
 
===Storage===
 
===Storage===
Neodymium magnets, if magnetized, should be stored in soft foam padding to avoid injury. When demagnetized, they are essentially a lump of metal and can be stored safely in any container.
+
Stronger magnets such as neodymium/samarium alloy magnets should be stored in soft foam padding, with spacers between individual magnets to avoid injury. Weaker varieties such as Alnico and ferrites can be stored anywhere.
  
 
===Disposal===
 
===Disposal===
Neodymium magnets, if of considerable size and/or magnetic strength, should be demagnetized in an oven above their Curie temperature before disposing.
+
Stronger magnets should always be demagnetized by heating before disposal to prevent injury.
  
 
==References==
 
==References==
Line 139: Line 43:
 
===Relevant Sciencemadness threads===
 
===Relevant Sciencemadness threads===
 
*[http://www.sciencemadness.org/talk/viewthread.php?tid=14145 The trouble with neodymium...]
 
*[http://www.sciencemadness.org/talk/viewthread.php?tid=14145 The trouble with neodymium...]
*[http://www.sciencemadness.org/talk/viewthread.php?tid=8758 Rare earth metals, mischmetal, etc]
+
*[http://www.sciencemadness.org/talk/viewthread.php?tid=14145 Isolation of neodymium from magnets]
 +
*[http://www.sciencemadness.org/talk/viewthread.php?tid=17986 Samarium from SmCo5 magnets]
 +
*[http://www.sciencemadness.org/talk/viewthread.php?tid=8758&page=2#pid126564 Rare earth metals, mischmetal, etc.]
 +
*[https://www.sciencemadness.org/whisper/viewthread.php?tid=29839 Best type of magnet for a stirrer/hotplate?!]
  
 
[[Category:Chemical compounds]]
 
[[Category:Chemical compounds]]

Revision as of 23:02, 10 January 2018

Magnets are a commonly-encountered form of material that can be useful to the amateur chemist.

General magnetic properties

Curie temperature

The Curie temperature represents the temperature at which all magnetic crystal domains will realign randomly, effectively causing the magnet to lose all traces of magnetic force. This temperature is useful for removing the dangerous magnetic fields of stronger magnets.

Magnetic field strength

The magnetic field strength is how much force the magnet can exert at a given size and magnetization. For example, a 1-pound 2"x2"x1" block of neodymium-iron-boron alloy, when fully magnetized, can lift over 500 pounds of weight.

Types of magnets

Neodymium-iron-boron magnets

Neodymium magnets are composed of an alloy of neodymium, iron and boron surrounded by a protective, oxygen-excluding metallic shell. See Neodymium iron boron magnet for more information. These magnets are approximately 27% Nd by weight. The typical range of Curie temperature for this alloy is 310 to 340 degrees C. These alloys may contain significant (>10%) amounts of cerium, gadolinium, praseodymium, and other rare earths, as substituting these for Nd does not significantly impact the magnetic properties.

Samarium-cobalt magnets

Samarium-cobalt magnets are composed of an alloy of samarium and cobalt, typically surrounded by a protective metallic or Teflon shell. Some laboratory stir bars may use the SmCo alloy as the magnetic material owing to its higher temperature resistance than neodymium magnets. Two types of SmCo alloys are commonly made: SmCo5 and Sm2Co17. The first is approximately 34% Sm by weight, and the second is approximately 23% Sm by weight. The typical range of Curie temperature for this alloy is 700 to 800 degrees C.

Alnico magnets

Alnico magnets are composed of an alloy of aluminium, nickel and cobalt, hence the name. These magnets' composition is not as tightly controlled as are rare-earth magnets', and as such the magnet composition can consist of a range of 8-12% Al, 15-26% Ni, 5-24% Co, 0-6% Cu, 0-1% Ti, and the remainder is Fe.

Ferrite magnets

Ferrite magnets are chiefly composed of a ceramic magnetic crystal form of iron oxide, with trace additions of nickel, manganese, zinc, strontium, and/or barium to create a spinel crystal structure consisting of the compound AB2O4, where A is Fe, B is some 2+ cation such as zinc or barium, and O is oxygen.

Projects

Handling

Safety

Rare earths can cause heavy metal poisoning if ingested, but are otherwise safe to handle with basic PPE. Magnetized materials, however, can exert strong enough forces to injure the human body, and should thus be either demagnetized at their Curie temperature or kept away from other magnetic/ferrous materials.

Storage

Stronger magnets such as neodymium/samarium alloy magnets should be stored in soft foam padding, with spacers between individual magnets to avoid injury. Weaker varieties such as Alnico and ferrites can be stored anywhere.

Disposal

Stronger magnets should always be demagnetized by heating before disposal to prevent injury.

References

Relevant Sciencemadness threads