Basic information Description Uses Creosote in the Environment Health hazard Toxicokinetics Safety Supplier Related
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Creosote

Basic information Description Uses Creosote in the Environment Health hazard Toxicokinetics Safety Supplier Related

Creosote Basic information

Product Name:
Creosote
Synonyms:
  • BEECHWOOD CREOSOTE
  • CREOSOTE
  • CREOSOTE COAL TAR
  • COAL TAR CREOSOTE
  • CREOSOTE FROM BEECHWOOD
  • Creosote(woodtarfraction)
  • Creosote,woodtarfraction
  • CREOSOTE-IMPREGNATEDWASTEMATERIALS
CAS:
8021-39-4
MF:
C7H8O2
MW:
124.13722
EINECS:
232-419-1
Product Categories:
  • UVCBs-organic
Mol File:
8021-39-4.mol
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Creosote Chemical Properties

Boiling point:
200-220 °C(lit.)
Density 
1.09 g/mL at 20 °C
Flash point:
74 °C
color 
Yellowish, greasy
Odor
liquid with smokey odor
Odor Type
smoky
Merck 
13,2601
EPA Substance Registry System
Wood creosote (8021-39-4)
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Safety Information

Hazard Codes 
T,C
Risk Statements 
23/24/25-34-48/20/21/22-68-52/53-37
Safety Statements 
26-36/37/39-45-61
RIDADR 
UN 2922 8/PG 2
WGK Germany 
3
RTECS 
GO5870000
Hazardous Substances Data
8021-39-4(Hazardous Substances Data)
Toxicity
TDLo orl-rat: 52,416 mg/kg/91D-C OYYAA2 21,899,81

MSDS

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Creosote Usage And Synthesis

Description

Creosote is the name used for a variety of products: wood creosote, coal tar creosote, coal tar, coal tar pitch, and coal tar pitch volatiles. These products are mixtures of many chemicals created by burning of beech and other woods, coal, or from the resin of the creosote bush.
Wood creosote is a colorless to yellowish greasy liquid with a characteristic smoky odor and sharp burned taste. It is soluble in water and is derived from the resin of leaves of the creosote bush and beechwood. 




Uses

Creosote is used in construction (roofing), railroad and utilities industries, and for wood treatment and waterproofing.
Coal tar creosote is the most common form of creosote in the workplace and at hazardous waste sites in the U.S. Coal tar creosote is widely used as a wood preservative.It is also used to treat skin diseases such as psoriasis and as an insecticide and fungicide.

Creosote in the Environment

Creosote that is in the environment has usually been released from industries that preserve wood. Creosote can be released into soil and water and can then move through the soil to groundwater. Groundwater is water found underground in cracks and spaces in soil, sand, and rocks. After creosote gets into groundwater, it may take many years to break down.  Coal tar creosote that remains in soil or water is toxic to animals and possibly to humans.
The chemicals in creosote can enter the air and can also build up in plants and animals such as snails, shellfish, and oysters.

Health hazard

The majority of chemical components of creosote are aromatic and their odor is detectable by humans at very low concentrations. Most exposures to creosote products occur at very low levels that are not harmful. Short-term exposure to high levels of creosote products by direct contact with skin or by exposure to the vapors from these mixtures can cause sun sensitivity, irritation of the respiratory tract, and skin damage such as reddening, blistering or peeling. Animals fed large amounts of wood creosote at one time had convulsions and died, while those fed lower levels developed kidney and liver problems.
Humans are not likely to be exposed to such concentrations via environmental exposure. There is no evidence that creosote causes asthma; however, it is possible that at high levels it may worsen existing conditions.

Toxicokinetics

Creosotes and coal tar products can enter the body through the lungs, stomach, intestines and skin; although there are limited data quantifying absorption efficiency.
Some components of creosote may be stored in the body fat and may be found in breast milk. Coal tar components may be metabolized.
Components of creosotes and coal tar products are primarily excreted in the stool, with a small amount excreted in urine.

Chemical Properties

Yellow to dark brown, oily liquid with a distinctive pungent odor

Occurrence

Fagus species.

Uses

Wood creosote has been used as a disinfectant, a laxative, and a cough treatment, but has since been replaced by better medicines. Coal tar products are used in medicines to treat skin diseases such as psoriasis, and also as animal and bird repellents, insecticides, animal dips, and fungicides. Coal tar creosote is the most widely used wood preservative in the United States. Coal tar, coal tar pitch, and coal tar pitch volatiles are used for roofing, aluminum smelting, and coking.

Uses

Coal tar creosote has been used as a wood preservative pesticide in the United States since the late 1890s. This accounts for more than 97% of coal tar creosote production.Other uses include animal and bird repellent, insecticide, animal dip, fungicide, and pharmaceutical applications. Beechwood creosote has, in the past, been used for medicinal purposes.

Production Methods

Wood creosote is obtained from wood tars, from beech and the resin from leaves of the creosote bush, and by distillation and is composed mainly of phenols, xylenols, guaiacol, and creosol. Coal tar creosote is produced by high-temperature carbonization and distillation of bituminous coal. Coal tar creosote contains liquid and solid aromatic hydrocarbons, tar acids, and tar base.At least 75%of the coal tar creosote mixture is polyaromatic hydrocarbons. Purification of the crude preparation is accomplished by distillation and extraction from suitable oils.

Definition

1. (wood creosote) An almostcolourless liquid mixture ofphenols obtained by distilling tar obtainedby the destructive distillationof wood. It is used medically as anantiseptic and expectorant. 2. (coaltarcreosote) A dark liquid mixture ofphenols and cresols obtained by distillingcoal tar. It is used for preservingtimber.

Preparation

Starting materials are the heavy oils from wood tar; the material first is treated with NaOH to precipitate all saponifiable oils and subsequently with H2SO4; the raw creosote finally is purified by repeated fractional distillation

General Description

Colorless to yellowish oily liquid with a smoky odor and caustic burning taste.

Air & Water Reactions

May be sensitive to exposure to air. Slightly soluble in water.

Reactivity Profile

Phenols, such as CREOSOTE, do not behave as organic alcohols, as one might guess from the presence of a hydroxyl (-OH) group in their structure. Instead, they react as weak organic acids. Phenols and cresols are much weaker as acids than common carboxylic acids (phenol has Ka = 1.3 x 10^[-10]). These materials are incompatible with strong reducing substances such as hydrides, nitrides, alkali metals, and sulfides. Flammable gas (H2) is often generated, and the heat of the reaction may ignite the gas. Heat is also generated by the acid-base reaction between phenols and bases. Such heating may initiate polymerization of the organic compound. Phenols are sulfonated very readily (for example, by concentrated sulfuric acid at room temperature). The reactions generate heat. Phenols are also nitrated very rapidly, even by dilute nitric acid. CREOSOTE is incompatible with acacia, albumin, oxidizers and cupric, ferric, gold and silver salts.

Safety Profile

Confirmed carcinogen. When heated to decomposition it emits acrid smoke and irritating fumes.There is a fire hazard, CREOSOTE is combustible.

Carcinogenicity

The carcinogenicity of creosote oils has been studied quite thoroughly using mice. Studies indicate that coal tar creosote and several of its fractions can be carcinogenic when applied to the skin of mice and rabbits. Dermally applied coal tar creosote can also act as a tumor-initiating agent when applied prior to croton oil treatment.

Hazard

In aquatic sediments, several reactions can transform the chemicals released by the creosote preservatives into more dangerous chemicals. Most creosote preservative compounds have hazards associated with them before they are transformed. Cresol (m-, p-, and o-), phenol, guaiacol, and xylenol (1,3,4- and 1,3,5-) all are acute aquatic hazards prior to going through chemical reactions with the sediments. Alkylation reactions allows for the compounds to transition into more toxic compounds with the addition of R-groups to the major compounds found in creosote preservatives. Compounds formed through alkylation include: 3,4-dimethylphenol, 2,3-dimethylphenol, and 2,5-dimethylphenol, which are all listed as acute environmental hazards.

CreosoteSupplier

HBCChem, Inc.
Tel
+1-510-219-6317
Email
sales@hbcchem.com
Chizhou Kailong Import and Export Trade Co., Ltd.
Tel
Email
xg01_gj@163.com
Sigma-Aldrich
Tel
021-61415566 800-8193336
Email
orderCN@merckgroup.com
Jinan Jason Pharmaceutical Co., Ltd.
Tel
0531-82956131 15069164249
Email
jnjspharm@126.com
ANHUI WITOP BIOTECH CO., LTD
Tel
+8615255079626
Email
eric@witopchemical.com