BRASSYLIC ACID (1,11-UNDECANEDICARBOXYLIC ACID)

BRASSYLIC ACID

PRODUCT IDENTIFICATION

CAS NO.

505-52-2

BRASSYLIC ACID

EINECS NO.

208-011-4

FORMULA HOOC(CH₂)₁₁COOH

MOL WT. 244.33

H.S. CODE

2917.19

TOXICITY

SYNONYMS 1,11-Undecanedicarboxylic acid; Tridecanedioic acid;

Brassilic acid; 1,13-Tridecanedioic acid; n-Undecane-omega,omega'-dicarboxylic acid; Tridecane-1,13-dioic acid; Tridecandisäure (German); ácido tridecanodioico (Spanish); Acide tridécanedioïque (French);

DERIVATION

CLASSIFICATION

PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE white crystals

MELTING POINT 110 - 112 C

BOILING POINT

245 C

SPECIFIC GRAVITY

SOLUBILITY IN WATER

VAPOR DENSITY

AUTOIGNITION

NFPA RATINGS

Health: 1; Flammability: 0; Reactivity: 0

REFRACTIVE INDEX

FLASH POINT

STABILITY Stable under ordinary conditions

GENERAL DESCRIPTION & APPLICATIONS

Brassylic acid is a dicarboxylic acid with 13 carbon atoms, occurring in plant and animal tissues. It exhibits typical carboxyl group chemistry useful in a variety of industrial applications. Dicarboxylic acid can yield two kinds of salts, as they contain two carboxyl groups in its molecules. It is a white crystalline; melting point at 130 C, slightly soluble in water. It is used in manufacturing plasticizer for polymers, biodegradable solvents, lubricants and perfumeries. It is used as an intermediates to produce engineering plastics such as nylon-1313

SALES SPECIFICATION

APPEARANCE

white flake

ASSAY

98.0% min

WATER INSOLUBLES

0.5% max

MELTING POINT 112 - 114 C

TRANSPORTATION

PACKING 25kgs in drum

HAZARD CLASS Not regulated

UN NO.

OTHER INFORMATION

Hazard Symbols: XI, Risk Phrases: 36/37/38 , Safety Phrases:26-36

GENERAL DESCRIPTION OF DICARBOXYLIC ACID

Dicarboxylic acid is a compound containing two carboxylic acid, -COOH, groups. Straight chain examples are shown in table. The general formula is HOOC(CH₂)_nCOOH, where oxalic acid's n is 0, n=1 for malonic acid, n=2 for succinic acid, n=3 for glutaric acid, and etc. In substitutive nomenclature, their names are formed by adding -dioic' as a suffix to the name of the parent compound. They can yield two kinds of salts, as they contain two carboxyl groups in its molecules. The range of carbon chain lengths is from 2, but the longer than C 24 is very rare. The term long chain refers to C 12 up to C 24 commonly. Carboxylic acids have industrial application directly or indirectly through acid halides, esters, salts, and anhydride forms, polymerization, and etc. Dicarboxylic acids can yield two kinds of salts or esters, as they contain two carboxyl groups in one molecule. It is useful in a variety of industrial applications include;

Plasticizer for polymers
Biodegradable solvents and lubricants
Engineering plastics
Epoxy curing agent
Adhesive and powder coating
Corrosion inhibitor
Perfumery and pharmaceutical
Electrolyte

There are almost infinite esters obtained from carboxylic acids. Esters are formed by removal of water from an acid and an alcohol. Carboxylic acid esters are used as in a variety of direct and indirect applications. Lower chain esters are used as flavouring base materials, plasticizers, solvent carriers and coupling agents. Higher chain compounds are used as components in metalworking fluids, surfactants, lubricants, detergents, oiling agents, emulsifiers, wetting agents textile treatments and emollients, They are also used as intermediates for the manufacture of a variety of target compounds. The almost infinite esters provide a wide range of viscosity, specific gravity, vapor pressure, boiling point, and other physical and chemical properties for the proper application selections.

C length (Straight)	Product	CAS #	Melting Point	Boiling Point
C 2	Oxalic Acid (Ethanedioic Acid)	144-62-7	189 - 191 C	Sublimes
C 3	Malonic Acid (Propanedioic Acid)	141-82-2	131 - 135 C	Decomposes
C 4	Succinic Acid (Butanedioic Acid)	110-15-6	185 - 190 C	235 C
C 5	Glutaric Acid (Pentanedioic Acid)	110-94-1	95 - 99 C	302 C
C 6	Adipic Acid (Hexanedioic Acid)	124-04-9	151 - 153 C	265 C at 100 mmHg
C 7	Pimelic Acid (Heptanedioic Acid)	111-16-0	105 - 106 C	212 C at 10 mmHg
C 8	Suberic Acid (Octanedioic Acid)	505-48-6	143 - 144 C	230 C at 15 mmHg
C 9	Azelaic Acid (Nonanedioic Acid)	123-99-9	100 - 103 C	237 C at 15 mmHg
C 10	Sebacic Acid (Decanedioic Acid)	111-20-6	131 - 134 C	294 at 100 mmHg
C 11	Undecanedioic acid	1852-04-6	109 - 110 C
C 12	Dodecanedioic acid	693-23-2	128 - 129 C	245 C at 10 mmHg
C 13	Brassylic acid (Tridecanedioic acid)	505-52-2	112 - 114 C
C 14	Tetradecanedioic acid	821-38-5	126 - 128 C
C 15	Pentadecanedioic acid	1460-18-0
C 16	Thapsic acid (Hexadecanedioic acid)	505-54-4	124 - 126 C
C 18	Octadecanedioic acid	871-70-5