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Natrium

Sodium Struktur
7440-23-5
CAS-Nr.
7440-23-5
Bezeichnung:
Natrium
Englisch Name:
Sodium
Synonyma:
SODIUM METAL;Natrium;Metallic sodium;Sodium dispersion;Sodium solution;NATRIUMMETALL;SODIUM STANDARD;SODIUM STANDARD SOLUTION;Sodium, Oil based standard solution, Specpure(R), Na 5000μg/g;SODIUM, REAGENT (ACS)SODIUM, REAGENT (ACS)SODIUM, REAGENT (ACS)
CBNumber:
CB4854184
Summenformel:
Na
Molgewicht:
22.99
MOL-Datei:
7440-23-5.mol

Natrium Eigenschaften

Schmelzpunkt:
97.8 °C (lit.)
Siedepunkt:
883 °C (lit.)
Dichte
1.04 g/mL at 20 °C
Dampfdruck
1 mm Hg ( 440 °C)
Flammpunkt:
128 °F
storage temp. 
water-free area
L?slichkeit
H2O: soluble
Aggregatzustand
pieces (large)
Wichte
0.97
Farbe
White to off-white
Widerstand (resistivity)
4.69 μΩ-cm, 20°C
Wasserl?slichkeit
REACTS
Sensitive 
Air & Moisture Sensitive
Merck 
14,8570
Expositionsgrenzwerte
ACGIH: TWA 2 ppm; STEL 4 ppm
OSHA: TWA 2 ppm(5 mg/m3)
NIOSH: IDLH 25 ppm; TWA 2 ppm(5 mg/m3); STEL 4 ppm(10 mg/m3)
Stabilit?t:
Reacts violently with water, liberating and possibly igniting hydrogen. Flammable solid. Incompatible with water, strong oxidizing agents. Do not store near oxidants. Store under oil, or dry inert gas. Air sensitive.
InChIKey
MPMYQQHEHYDOCL-UHFFFAOYSA-N
CAS Datenbank
7440-23-5(CAS DataBase Reference)
NIST chemische Informationen
Sodium(7440-23-5)
EPA chemische Informationen
Sodium (7440-23-5)
Sicherheit
  • Risiko- und Sicherheitserkl?rung
  • Gefahreninformationscode (GHS)
Kennzeichnung gef?hrlicher C,F,T
R-S?tze: 34-14/15-45-65
S-S?tze: 26-8-6A-45-43D-43-36/37/39-22-7/8-62-5
RIDADR  UN 3264 8/PG 3
WGK Germany  1
RTECS-Nr. VY0686000
Selbstentzündungstemperatur >115 °C in air
TSCA  Yes
HS Code  2805 11 00
HazardClass  4.3
PackingGroup  I
Giftige Stoffe Daten 7440-23-5(Hazardous Substances Data)
Bildanzeige (GHS) GHS hazard pictogramsGHS hazard pictogramsGHS hazard pictogramsGHS hazard pictogramsGHS hazard pictograms
Alarmwort Achtung
Gefahrenhinweise
Code Gefahrenhinweise Gefahrenklasse Abteilung Alarmwort Symbol P-Code
H260 In Berührung mit Wasser entstehen entzündbare Gase, die sich spontan entzünden k?nnen. Stoffe und Gemische, die in Berührung mit Wasser entzündbare Gase entwickeln Kategorie 1 Achtung GHS hazard pictogramssrc="/GHS02.jpg" width="20" height="20" /> P223, P231+P232, P280, P335+ P334,P370+P378, P402+P404, P501
H304 Kann bei Verschlucken und Eindringen in die Atemwege t?dlich sein. Aspirationsgefahr Kategorie 1 Achtung GHS hazard pictogramssrc="/GHS08.jpg" width="20" height="20" />
H314 Verursacht schwere Ver?tzungen der Haut und schwere Augensch?den. ?tzwirkung auf die Haut Kategorie 1B Achtung GHS hazard pictogramssrc="/GHS05.jpg" width="20" height="20" /> P260,P264, P280, P301+P330+ P331,P303+P361+P353, P363, P304+P340,P310, P321, P305+ P351+P338, P405,P501
H336 Kann Schl?frigkeit und Benommenheit verursachen. Spezifische Zielorgan-Toxizit?t (einmalige Exposition) Kategorie 3 (Schl?frigkeit und Benommenheit) Warnung P261, P271, P304+P340, P312,P403+P233, P405, P501
H411 Giftig für Wasserorganismen, mit langfristiger Wirkung. Langfristig (chronisch) gew?ssergef?hrdend Kategorie 2
Sicherheit
P231+P232 Unter inertem Gas handhaben. Vor Feuchtigkeit schützen.
P280 Schutzhandschuhe/Schutzkleidung/Augenschutz tragen.
P301+P330+P331 BEI VERSCHLUCKEN: Mund ausspülen. KEIN Erbrechen herbeiführen.
P303+P361+P353 BEI BERüHRUNG MIT DER HAUT (oder dem Haar): Alle kontaminierten Kleidungsstücke sofort ausziehen. Haut mit Wasser abwaschen oder duschen.
P305+P351+P338 BEI KONTAKT MIT DEN AUGEN: Einige Minuten lang behutsam mit Wasser spülen. Eventuell vorhandene Kontaktlinsen nach M?glichkeit entfernen. Weiter spülen.

Natrium Chemische Eigenschaften,Einsatz,Produktion Methoden

ERSCHEINUNGSBILD

SILBERNER FESTSTOFF IN VERSCHIEDENEN FORMEN

CHEMISCHE GEFAHREN

Reagiert heftig mit Wasser, Feuer- und Explosionsgefahr. Schnelle Zersetzung unter Einfluss von Luftund Feuchtigkeit, unter Bildung brennbarer/explosionsf?higer Gase (z.B. Wasserstoff, ICSC-Nr. 0001).

ARBEITSPLATZGRENZWERTE

TLV nicht festgelegt (ACGIH 2005).
MAK nicht festgelegt (DFG 2006).

AUFNAHMEWEGE

Schwerwiegende lokale Wirkungen auf allen Aufnahmewegen.

WIRKUNGEN BEI KURZZEITEXPOSITION

WIRKUNGEN BEI KURZZEITEXPOSITION:
Siehe ICSC 0360 (Natriumhydroxid)

LECKAGE

Gefahrenbereich verlassen! Fachmann zu Rate ziehen! Chemikalienschutzanzug mit umgebungsluftunabh?ngigem Atemschutzger?t. Verschüttetes Material mit trockenem Pulver abdecken.

R-S?tze Betriebsanweisung:

R34:Verursacht Ver?tzungen.
R14/15:Reagiert heftig mit Wasser unter Bildung hochentzündlicher Gase.
R45:Kann Krebs erzeugen.

S-S?tze Betriebsanweisung:

S26:Bei Berührung mit den Augen sofort gründlich mit Wasser abspülen und Arzt konsultieren.
S8:Beh?lter trocken halten.
S45:Bei Unfall oder Unwohlsein sofort Arzt zuziehen (wenn m?glich, dieses Etikett vorzeigen).
S43:Zum L?schen . . . (vom Hersteller anzugeben) verwenden (wenn Wasser die Gefahr erh?ht, anfügen: "Kein Wasser verwenden").
S53:Exposition vermeiden - vor Gebrauch besondere Anweisungen einholen.

Aussehen Eigenschaften

Na; wachsweiches, an frischen Schnittstellen silberweißes Metall, meist mit einer graubraunen Kruste überzogen.

Gefahren für Mensch und Umwelt

Natrium reagiert mit Wasser stürmisch unter Bildung von wasserstoff und Natronlauge, wobei es schmilzt und den Wasserstoff u.U. entzündet. Es reagiert äußerst heftig bis explosionsartig mit Halogenen, Halogeniden des Zinns, Silbers Schwefels, Phosphors und Siliciums, ferner mit Halogenwasserstoffen,Schwermetalloxiden, Säuren, Säurechloriden, Aktivkohle und Graphit, Ammoniumnitrat, Nitroverbindungen, Schwefelkohlenstoff und allen Peroxiden, Chloraten und Perchloraten. Die Oxide und Hydroxide, sowie Salze der meisten Schwermetalle werden beim Erhitzen mit Natrium, teilweise explosionsartig, zuden Metallen reduziert.
Petroleum sollte, wegen möglicher reaktiver Verunreinigungen, als Inertflüssigkeit vermieden werden.
Hautkontakt mit Natriummetall führt zu Verbrennungen bzw. extrem tiefgreifenden Verätzungen durch Natronlauge. Letztere sind eine in die Tiefe fortschreitene Quellung und Auflösung betroffener Gewebe (daher gefährlicher als Säureverätzungen). Am Auge durch Laugenspritzer oder Natriumpartikel schwereReizerscheinungen oder Verätzungen an der Bindehaut sowie Trübung und Geschwürbildung an der Hornhaut.
Durch Verschlucken entstehen schwerste Verätzungen der Speiseröhre und der Magenschleimhaut.
Wassergefährnder Stoff (WGK 2).

Schutzma?nahmen und Verhaltensregeln

Reines Natrium wird unter Petrolether oder Paraffinöl aufbewahrt.
Trockene Schutzhandschuhe nur als kurzfristigen Schutz verwenden.

Verhalten im Gefahrfall

Metallstücke mit Pinzette aufsammeln. Kleine Krümel mit Propanol oder Wasser aufwischen.
Trockener Sand, Kalksteinpulver, Soda. Auf keinen Fall wasserhaltige Mittel oder CO2 zum Löschen verwenden.

Erste Hilfe

Nach Hautkontakt: Metallteile trocken entfernen, dann mit Wasser gründlich abwaschen. Arzt aufsuchen.
Nach Augenkontakt: Mit Wasser mind. 10 Min. bei geöffnetem Augenlid spülen. Augenarzt aufsuchen.
Nach Verschlucken: Erbrechen vermeiden. Viel Wasser oder sauren Wein, Zitronensaft, Essigsäurelösung (stark verdünnt!) trinken lassen. Sofort zum Arzt!
Nach Kleidungskontakt: Verunreinigte Kleidung sofort ausziehen.
Ersthelfer: siehe gesonderten Anschlag

Sachgerechte Entsorgung

Kleine Reste vorsichtig in Propanol oder Ethanol geben, danach mit Wasser versetzen und neutralisieren. Das Gemisch wird im Sammelbehälter für neutrale wässrige Lösungen entsorgt. Größere Mengen als Sondermüll entsorgen.

Beschreibung

In its ionic form, sodium is one of the most important biological nutrients and is found nearly everywhere on Earth. Although it was isolated as a free metal in 1807 by Sir Humphry Davy and makes up 2.83% of Earth’s lithosphere, it is not found in its metallic form in nature. Pure sodium is extremely reactive, particularly with water to form explosive hydrogen gas and lye (NaOH); it can also react with water vapor in air or biological tissues.
Mined and refined salts from terrestrial and aquatic sources contain sodium in the form of sodium chloride, sodium iodide, and other compounds. Natron, a naturally occurring mixture of sodium compounds, has been used since the time of the ancient Egyptians, and sodium compounds are essential to numerous industries, including those involving glass, paper, and soap production. Since it does not occur in its metallic form in nature, pure sodium metal must be produced industrially, which is accomplished via electrolysis of molten sodium chloride.

Chemische Eigenschaften

Sodium is a soft silvery white metallic element. Pyrophoric solid or molten liquid. Odorless, oxidizing rapidly in air; waxlike at room temperature, brittle at low temperatures. Store in airtight containers or in naphtha or similar liquid that does not contain water or free oxygen. Decomposes water on contact, with evolution of hydrogen to form sodium hydroxide; insoluble in benzene, kerosene, and naphtha. Has excellent elec- trical conductivity and high heat-absorbing capacity.

Physikalische Eigenschaften

Sodium is a soft, wax-like silver metal that oxidizes in air. Its density is 0.9674 g/cm3, andtherefore it floats on water as it reacts with the water releasing hydrogen. It has a rather lowmelting point (97.6°C) and a boiling point of 883°C. Sodium is an excellent conductor ofheat and electricity. It looks much like aluminum but is much softer and can be cut with aknife like butter. Its oxidation state is +1.

Isotopes

Sodium has 14 isotopes. The only stable isotope of sodium has an averageatomic weight of 23 (23Na) and makes up about 100% of all the isotopes of the element sodium found on Earth. All the other 13 isotopes (from 19Na to 31Na) are radioactive with relatively short half-lives and thus are unstable.

Origin of Name

The Latin name for the symbol for “sodium” (Na) is natrium, and the name “sodium” in Latin is sodanum, which was known as an ancient headache remedy and was called “soda” in English.

Occurrence

Sodium is the sixth most abundant of the Earth’s elements. Since it is a highly electropositive metal and so reactive with nonmetals, it is not found in its pure elemental form on Earth.Rather, it is found in numerous compounds in relatively abundant quantities. About 2.83%of the Earth’s crust consists of sodium in compounds.Sodium is produced by an electrolytic process, similar to the other alkali earth metals. (Seefigure 4.1). The difference is the electrolyte, which is molten sodium chloride (NaCl, common table salt). A high temperature is required to melt the salt, allowing the sodium cationsto collect at the cathode as liquid metallic sodium, while the chlorine anions are liberated aschlorine gas at the anode: 2NaCl (salt) + electrolysis → Cl2↑ (gas) + 2Na (sodium metal). Thecommercial electrolytic process is referred to as a Downs cell, and at temperatures over 800°C,the liquid sodium metal is drained off as it is produced at the cathode. After chlorine, sodiumis the most abundant element found in solution in seawater.

Charakteristisch

On the periodic table sodium is located between lithium and potassium. A fresh cut intosodium looks silvery but turns gray as sodium oxidizes rapidly in air, forming sodium oxideon its surface.Sodium is extremely reactive. It reacts explosively in water as it releases hydrogen fromthe water with enough heat to ignite the hydrogen. The resulting compound of this reactionis sodium hydroxide (2Na + 2H2O → 2NaOH + H2↑). Due to its extremely electropositivereactivity, there are few uses for the pure metallic form of sodium. Because of its reactivity,hundreds of sodium compounds are found on the Earth’s surface.Guide to the Elements | 51An unusual characteristic of several alkali metals is that a mixture of two or more has alower melting point than the melting point of the separate metals. This is referred to as aeutectic system of metallic alloys. For instance, sodium has a melting point of 97.6°C, andpotassium’s melting point is 63.25°C, but when the two are mixed, the eutectic melting point(turning into a liquid phase) of the combined Na-K system is below zero degrees Celsius(–10°C). If cesium metal (melting point of 38.89°C) is added to the Na and K mixture, themelting point of this eutectic alloy (Na-K-Cs) is the lowest of any eutectic alloy at –78°C.

Verwenden

manufacture of sodium Compounds, such as the cyanide, azide, peroxide, etc.; manufacture of tetraethyllead; manufacture of refractory metals; in org syntheses; for photoelectric cells; in sodium lamps; as catalyst for many polymerization reactions. Alloyed with potassium in heat transfer media.

Definition

sodium: Symbol Na. A soft silveryreactive element belonging to group1 (formerly IA) of the periodic table(see alkali metals); a.n. 11; r.a.m.22.9898; r.d. 0.97; m.p. 97.8°C; b.p.882–889°C. Sodium occurs as thechloride in sea water and in the mineralhalite. It is extracted by electrolysisin a Downs cell. The metal isused as a reducing agent in certainreactions and liquid sodium is also acoolant in nuclear reactors. Chemically,it is highly reactive, oxidizingin air and reacting violently withwater (it is kept under oil). It dissolvesin liquid ammonia to formblue solutions containing solvatedelectrons. Sodium is a major essentialelement required by living organisms.The element was first isolatedby Humphry Davy in 1807.

Vorbereitung Methode

Sodium is an essential element needed for all organic life. Sodium is produced commercially through the electrolysis of liquid sodium chloride mixed with calcium chloride in a Downs Cell. Very pure sodium can be isolated by the thermal decomposition of sodium azide (NaN3). Sodium, in its metallic form, can be used to refine some reactive metals, such as zirconium and potassium, from their compounds and is very important in making esters.

Allgemeine Beschreibung

Sodium,Na, melts at 97.8°C and boils at 892°C. It is silver-white in color, is soft and malleable, and oxidizes in air. When exposed to air, a silvery soft metal that becomes grayish white upon. It occurs naturally only in the forms of its salts. Shipped as a solid or molten liquid. Burns violently with explosions that may spatter the material. Sodium is used as a chemical intermediate. and in pharmaceuticals, petroleum refining and metallurgy, electric power cable, Sodium lamps, other chemicals.

Air & Water Reaktionen

May ignite spontaneously in air. Reacts violently with water to give Sodium hydroxide and hydrogen, which ignites spontaneously [Merck, 11th ed. 1989)]. The ignition temperature of Sodium in air depends on the area of surface exposed: vapor ignites at room temperature; droplets at about 250°F; an agitated pool at 400°F. In the absence of moisture and hydrogen, the reaction is insignificant [Mellor 2 Supp. 2:440 1961].

Hazard

Sodium as the elemental metal is very dangerous because of its extreme electropositivenature, particularly when it comes in contact with moist air, water, snow, or ice or otheroxidizing agents. It readily gives up electrons to electronegative atoms (nonmetals). In thesereactions, it releases hydrogen gas with enough heat to explosively ignite the hydrogen.
Numerous sodium compounds are hazardous as carcinogens (cancer-causing) and astoxins (poisons) in plants and animals. On the other hand, we benefit greatly from the manycompounds containing the element sodium. We could not live without it.

Health Hazard

Sodium reacts with the moisture on skin and other tissues to form highly corrosive sodium hydroxide. Contact of metallic sodium with the skin, eyes, or mucous membranes causes severe burns; thermal burns may also occur due to ignition of the metal and liberated hydrogen.

Brandgefahr

Sodium spontaneously ignites when heated above 115 °C in air that has even modest moisture content, and any sodium vapor generated is even more flammable. Sodium reacts violently on contact with water and often ignites or explodes the hydrogen formed. Sodium fires must be extinguished with a class D dry chemical extinguisher or by the use of sand, ground limestone, dry clay or graphite, or ''Met- L-X ? " type solids. Water or CO 2 extinguishers must never be used on sodium fires.

Flammability and Explosibility

Sodium spontaneously ignites when heated above 115 °C in air that has even modest moisture content, and any sodium vapor generated is even more flammable. Sodium reacts violently on contact with water and often ignites or explodes the hydrogen formed. Sodium fires must be extinguished with a class D dry chemical extinguisher or by the use of sand, ground limestone, dry clay or graphite, or "Met- L-X ?" type solids. Water or CO2 extinguishers must never be used on sodium fires.

m?gliche Exposition

A potential danger to those involved in tetra-alkyl lead manufacture using lead-sodium alloy as a reactant; those using sodium as a liquid metal coolant, as a catalyst, or in the manufacture of sodium hydride, borohydride, or peroxide.

Environmental Fate

Elemental sodium that is released into the environment reacts almost immediately with water to form sodium hydroxide and hydrogen gas. Even small quantities of metallic sodium can be explosive when brought into contact with sources of water; the formation sodium hydroxide raises the local pH and is extremely caustic. Sodium cations formed from this reaction are rapidly absorbed into the surrounding environment to form a large variety of salts.

Lager

Safety glasses, impermeable gloves, and a fire-retardant laboratory coat should be worn at all times when working with sodium, and the metal should be handled under the surface of an inert liquid such as mineral oil, xylene, or toluene. Sodium should be used only in areas free of ignition sources and should be stored under mineral oil in tightly sealed metal containers under an inert gas such as argon.

Versand/Shipping

UN1428 Sodium, Hazard Class: 4.3; Labels: 4.3-Dangerous when wet material. Note: Finely divided sodium is pyrophoric.

l?uterung methode

The metal is placed on a coarse grade of sintered-glass filter, melted under vacuum and forced through the filter using argon. The Pyrex apparatus is then re-evacuated and sealed off below the filter, so that the sodium could be distilled at 460o through a side arm and condenser into a receiver bulb which is then sealed off [Gunn & Green J Am Chem Soc 80 4782 1958]. EXPLODES and IGNITES in water.

Inkompatibilit?ten

A strong reducing agent. A dangerous fire hazard when exposed to heat and moisture. Violent reaction with water, forming NaOH. Violent reaction with oxidizers (chlorates, nitrates, peroxides, permanganates, perchlorates, chlorine, bromine, fluorine, etc.); contact may cause fires or explosions. Keep away from alkaline materials, strong bases, strong acids, oxoacids, epoxides. halogenated hydrocarbons; phosphorus and phosphorus compounds; sulfur and sulfur compounds; and many other chemicals.

Waste disposal

Incineration with absorption of oxide fumes.

Natrium Upstream-Materialien And Downstream Produkte

Upstream-Materialien

Downstream Produkte

7440-23-5(Natrium)Verwandte Suche:


  • Sodium, under mineral oil, 99.8%
  • SODIUM REAGENT (ACS)
  • SODIUM, 40% DISPERSION IN OIL
  • Sodium(99.95%)(breaksealampoule)
  • Sodium(99.95%)(prescoredampoule)
  • SODIUMMETAL,INGOT,REAGENT
  • DIETARYSODIUM
  • SODIUM, 3N5: 99.95%
  • SODIUM: 99.95%, 3N5
  • SODIUM DISPERSION, GRAY SUSPENSION: 40% IN MINERAL OIL
  • SODIUM INGOT: 99.8%, (ACS)
  • Sodium, Breakseal Ampoule
  • Sodium, Oil based standard solution, Specpure(R), Na 1000μg/g
  • Sodium, plasma standard solution, Specpure(R), Na 1000μg/ml
  • Sodium, plasma standard solution, Specpure(R), Na 10,000μg/ml
  • Sodium, AAS standard solution, Specpure(R), Na 1000μg/ml
  • Sodium, sticks, in mineral oil
  • Dupont sodium metal dispersion
  • 3,5-diacetamido-2,4,6-triiodo-benzoate
  • Sodium, Product meets ACS specifications
  • Sodium, Reference Standard Solution, 1000ppm ±1%
  • SODIUM, POWDER, DRY
  • Sodium AA Standard,1000 ppm in HNO3
  • BUFFERS PH 4,00(20°C) 7,00 (20°C)9,00
  • NA 1421
  • Nametal
  • sodio
  • sodium(liquidalloy)
  • sodium atom
  • THIOGLYCOLLATE MEDIUM USP 20X9ML
  • TODD HEWITT BROTH + ANTIBIOTIC 120X10ML
  • SODIUM, CUBE, IN MINERAL OIL, 99.95%
  • SODIUM 30-35 WT. % DISPERSION IN PARAF&
  • SODIUM 25 WT. % DISPERSION IN TOLUENE
  • SODIUM, LUMP, IN KEROSENE, 99%
  • Sodium, ingot, 99.95% metals basis
  • SODIUM, SPHERES, 3 TO 8MM, IN ODORLESS M INERAL SPIRITS
  • SODIUM, STICK, DRY, A.C.S. REAGENT (UNDE R NITROGEN)
  • SODIUM, 25WT. % DISPERSION IN PARAFFIN WAX
  • SODIUM, 40 WT. % DISPERSION IN NAPHTHEN&
  • SODIUM STICK DRY A.C.S. REAGENT &
  • SODIUM, 30-35 WT. % DISPERSION IN PARAFFIN WAX
  • SODIUM LUMPS
  • SODIUM, LARGE PIECES, IN KEROSENE
  • Sodium(Metal)InLiquidParaffin
  • Sodium(Metal)InLiquidParaffinGr
  • Sodium (99.95%)
  • Sodium ingot (min.99.8%)
  • Sodium solution 10 000 ppm
  • Sodium solution 1000 ppm
  • Sodium standard solution 1000 ppm
  • Sodiumdispersiongraysuspensioninmineraloil
  • SodiumingotACSunderoil
  • SodiumNbreaksealampouleunderargon
  • SodiumNprescoredampoule
  • SODIUM METAL 99.5%
  • Sodium,sticks,inmineraloil,99%
  • SODIUM LUMP
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