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Product Name: |
Formic acid |
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CAS: |
64-18-6 |
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MF: |
CH2O2 |
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MW: |
46.03 |
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EINECS: |
200-579-1 |
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Mol File: |
64-18-6.mol |
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Melting point |
8.2-8.4 °C(lit.) |
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Boiling point |
101 °C |
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density |
1.22 |
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vapor density |
1.03 (vs air) |
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vapor pressure |
52 mm Hg ( 37 °C) |
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refractive index |
n20/D 1.377 |
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FEMA |
2487 | FORMIC ACID |
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Fp |
133 °F |
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storage temp. |
2-8°C |
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solubility |
H2O: soluble1g/10 mL, clear, colorless |
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pka |
3.75(at 20℃) |
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form |
Liquid |
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color |
APHA: ≤15 |
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Specific Gravity |
1.216 (20℃/20℃) |
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PH |
2.2 (10g/l, H2O, 20℃) |
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explosive limit |
12-38%(V) |
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Water Solubility |
MISCIBLE |
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λmax |
λ: 260 nm Amax: 0.03 |
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Sensitive |
Hygroscopic |
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Merck |
14,4241 |
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JECFA Number |
79 |
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BRN |
1209246 |
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Henry's Law Constant |
At 25 °C: 95.2, 75.1, 39.3, 10.7, and 3.17 at pH values of 1.35, 3.09, 4.05, 4.99, and 6.21, respectively (Hakuta et al., 1977) |
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Hazard Codes |
T,C,Xi |
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Risk Statements |
23/24/25-34-40-43-35-36/38-10 |
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Safety Statements |
36/37-45-26-23-36/37/39 |
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RIDADR |
UN 1198 3/PG 3 |
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WGK Germany |
2 |
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RTECS |
LP8925000 |
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F |
10 |
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Autoignition Temperature |
1004 °F |
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TSCA |
Yes |
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HazardClass |
8 |
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PackingGroup |
II |
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HS Code |
29151100 |
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Hazardous Substances Data |
64-18-6(Hazardous Substances Data) |
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Toxicity |
LD50 in mice (mg/kg): 1100 orally; 145 i.v. (Malorny) |
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General Description |
Formic acid (HCO2H), also called methanoic acid, is the simplest carboxylic acid. Formic acid was first isolated by the distillation of ant bodies and was named after the Latin formica, meaning “ant.” Its proper IUPAC name is now methanoic acid. Industrially, formic acid is produced by treatment of carbon monoxide with an alcohol such as methanol (methyl alcohol) in the presence of a catalyst. |
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Chemical Properties |
Formic acid, or methanoic acid, is the first member of the homologous series identified as fatty acids with the general formula RCOOH. Formic acid was obtained first from the red ant; itscommon name is derived from the family name for ants, Formi- cidae. This substance also occurs naturally in bees and wasps, and is presumed to be responsible for the "sting" of these insects. |
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Chemical Properties |
Formic acid has a pungent, penetrating odor Formic acid is the frst member of the homologous series identifed as fatty acids with general formula RCOOH This acid was obtained frst from the red ants; its common name is derived from the family name for ants, Formicidae This substance also occurs naturally in bees and wasps and is presumed to be responsible for the sting of these insects. |
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Physical properties |
Clear, colorless, fuming liquid with a pungent, penetrating odor. Odor threshold concentration is 49 ppm (quoted, Amoore and Hautala, 1983). |
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Uses |
Formic Acid is a flavoring substance that is liquid and colorless, and possesses a pungent odor. it is miscible in water, alcohol, ether, and glycerin, and is obtained by chemical synthesis or oxidation of methanol or formaldehyde. |
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Uses |
Formic acid occurs in the stings of ants andbees. It is used in the manufacture of estersand salts, dyeing and finishing of textiles andpapers, electroplating, treatment of leather,and coagulating rubber latex, and also as areducing agent. |
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Production Methods |
Formic acid is manufactured as a by-product of the liquidphase oxidation of hydrocarbons to acetic acid. It is also produced by (a) treating sodium formate and sodium acid formate with sulfuric acid at low temperatures followed by distillation or (b) direct synthesis from water and CO2 under pressure and in the presence of catalysts. |
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Definition |
ChEBI: The simplest carboxylic acid, containing a single carbon. Occurs naturally in various sources including the venom of bee and ant stings, and is a useful organic synthetic reagent. Principally used as a preservative and antibacterial agent in livestock feed Induces severe metabolic acidosis and ocular injury in human subjects. |
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Biotechnological Production |
Formic acid is generally produced by chemical synthesis . However, biotechnological routes are described in literature. First, formic acid could be produced from hydrogen and bicarbonate by whole-cell catalysis using a methanogen. Concentrations up to 1.02 mol.L-1 (47 g.L-1) have been reached within 50 h. Another example is the formation of formic acid and ethanol as co-products by microbial fermentation of glycerol with genetically modified organisms. In small-scale experiments, 10 g.L-1 glycerol has been converted to 4.8 g.L-1 formate with a volumetric productivity of 3.18 mmol.L-1.h-1 and a yield of 0.92 mol formate per mole glycerol using an engineered E. coli strain. |
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Taste threshold values |
Taste characteristics at 30 ppm: acidic, sour and astringent with a fruity depth. |
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Raw materials |
Sodium hydroxide-->Methanol-->Sulfuric acid -->Triethylamine-->Ammonia-->Sodium methanolate-->Phosphorous acid-->CARBON MONOXIDE-->PETROLEUM ETHER-->Sodium formate-->Methyl formate-->METALLURGICAL COKE |
