| CAS
NO. |
1330-43-4,
12447-40-4 (Anhydrous)
11130-12-4 (Pentahydrate)
1303-96-4
(Decahydrate) |
|
| EINECS
NO. |
215-540-4
(Anhydrous)
271-536-2 (Decahydrate) |
| FORMULA |
Na2B4O7.10H2O
|
| MOL
WT. |
381.4 |
|
HS
CODE
|
2840.19 |
| TOXICITY |
Oral
Rat LD50 : 2660 mg/kg |
| SYNONYMS |
Borax;
Borates, Tetrasodium Salts, Decahydrate |
| Sodium
Tetraborate Decahydrate, Sodium
Pyroborate Decahydrate; Sodium Tetraborate Decahydrate;
Disodium Tetraborate Decahydrate; Sodium Borate Decahydrate;
Fused Borax; Dinatriumtetraborat (German); Tetraborato de disodio
(Spanish); Tétraborate de disodium (French);
|
| DESCRIPTION |
|
|
CLASSIFICATION
|
|
|
PHYSICAL
AND CHEMICAL PROPERTIES
|
| PHYSICAL
STATE |
white
crystals or crystalline powder |
| MELTING
POINT |
741
C |
| BOILING
POINT |
1,575
C |
| SPECIFIC
GRAVITY |
1.73 |
| SOLUBILITY
IN WATER |
slightly
soluble in cold water; very soluble in hot water;
(insoluble in acids) |
| pH |
weak
base (9.15 - 9.20) |
| VAPOR
DENSITY |
|
|
AUTOIGNITION
|
|
|
NFPA
RATINGS
|
Health: 1; Flammability: 0; Reactivity: 0 |
|
REFRACTIVE
INDEX
|
|
| FLASH
POINT |
|
| STABILITY |
Stable
under ordinary conditions |
|
APPLICATIONS
|
| Mild
Antiseptic, Cleansing Agent, Water Softener,
Corrosion Inhibitor for Antifreeze, Flux for
Silver Soldering, Manufacture of Enamels, Shellacs,
Heat-resistant Glass (e.g., Pyrex), Fertilizers,
Pharmaceuticals, and other chemicals, Preservative
but toxic if consumed in large doses. |
| SALES
SPECIFICATION |
|
APPEARANCE
|
white
powder |
|
PURITY
|
99.5%
min
|
| B2O3 |
36,47
% min |
| Na2O |
16,47
% min |
|
Na2CO3
|
0.2%
max
|
|
Na2SO4
|
0.2%
max
|
|
WATER-INSOLUBLES
|
0.04%
max
|
| CI
|
0.05%
max
|
| Fe |
0.002%
max
|
| TRANSPORTATION |
| PACKING |
25kgs
in Bag 20mts in container |
| HAZARD
CLASS |
|
| UN
NO. |
Not
regulated |
| OTHER
INFORMATION |
|
Hazard Symbols: ,
Risk Phrases: , Safety Phrases: 22-24/25 |
|
GENERAL
DESCRIPTION BORIC ACID
|
|
Boric acid refers to 3 compounds; orthoboric acid (also called boracic acid,
H3BO3 or
B2O3·3H2O), metaboric acid (HBO2 or B2O3·H2O), and tetraboric acid
(also called pyroboric, H4B4O7 or B2O3·H2O). Orthoboric acid dehydrates to form
metaboric acid and tetraboric acid above 170 C and 300C respectively. Orthoboric
acid is derived from boric oxide in the form of white, triclinic crystals. It is
poorly soluble in cold water but dissolves readily in hot
water, in alcohol and glycerine. Metaboric acid is a white, cubic crystalls. It
is soluble in water slightly. Tetraboric acid is a white solid soluble in water.
When tetraboric and metaboric acid are dissolved, it reverts to orthoboric acid.
The main uses of boric acid is to make borate salts such as borax and other
boron compounds. Boric acid is also used in heat resistant glass, in
fireproofing fabrics, in electroplating baths, in leather manufacturing,
porcelain enamels and in hardening steels. Boric acid has antiseptic and
antiviral activity. Aqueous solutions have been used as mouth-washes, eye-drops,
skin lotions and cosmetics. Boric acid and its salts are components of many commercial insecticides
and wood preservatives. |
|
GENERAL
DESCRIPTION OF BORON AND ITS COMPOUNDS
|
|
Boron is a nonmetallic element, group III in the periodic table. Symbol B; aomic
number 5; atomic mass 10.811; melting point ca 2,300 C; sublimation point ca
2,550 C; specific gravity 2.37 or 2.34; valence +3; electronic config.
[He]2s22p1. There are two allotropes of boron; amorphous boron is a dark brown
to black amorphous powder, but metal-like crystalline solid is an extremely hard
(9.3 on Mohs' scale), black to silver-gray, brittle, lustrous and has a bad
conductor in room temperatures. The specific gravities of amorphous and
crystalline forms are 2.37 and 2.34 respectively. The crystalline form is far
less reactive than the amorphous form. The amorphous powder is oxidized slowly
in air at room temperature and ignites spontaneously at high temperatures to
form an oxide but the crystalline form is oxidized only very slowly, even at
higher temperatures. Boron is widely distributed in the form of borates but is
never found in the elemental form in nature. The important commercial borate
products are borax penta (or deca) hydrate, boron oxide, sodium perborate, boric
acid and minerals are borax, colemanite, ulexite, tincal, kermite, and brines as
well as ascharite, hydroboracite, datolite, tourmaline, etc. The simple way to
prepare boron of amorphous powder form is the reduction of boron trioxide by
heating with magnesium. Boric acid is produced mainly from borate ores
containing sodium or calcium by the reaction with sulfuric acid in the presence
of a hot aqueous boric acid liquor to recycle.
Major end uses for
borates include;
- FIBERGLASS AND GLASS
: Boron fibers probide very high
tensile strength and can be added to plastics to make a material that is
stronger than steel yet lighter than aluminum. Boron is used primarily in
fiberglass and boronsilicate glass which is the strong heat-resistant glass that
contains a minimum of 5 percent boric oxide. The resistance to heat and chemical
is attributable to the boric oxide which replace for sodium oxide in the
structure of the glass, creating low thermal expansion. Replace for sodium
oxide, Boric Oxide is a powerful base offering a high quality of heat and
chemical resistance. Boric compouds are important components in optical glass
industry to reduce thermal and mechanical shocks but to increase chemical
resistance and durability.
- CERAMICS
: Boric compounds reduce
significantly the melting point and can be used as an essential ingredient for
the production of ceramic frits and borosilicate glazes. Boric compounds are
used to control the coefficient of expansion to ensure that the glaze remains
fixed with the body without crazing or distortion.
- AGRICULTURE AND
FERTILIZER: Boron is an essential micronutrient for plant growth. Boron
fertilizers mixed with other compounds or NPK fertilizers are useful
boron-deficient soils.
- FLAME RETARDANT
: Boron is an effective chemical
flame retardant for an ample array of products. It is also used for wood,
plywood, textile products, cotton, paper and cellulose.
- CORROSION INHIBITOR
: Different boric composition can be
used as Corrosion Inhibitors and anti-freeze (mixed with Ethylene Glycol in
automobile motor cooling systems), as well as in brewing, heat treating,
hydraulic fluids, and treatment of metallic products.
- WOOD PRESERVATIVES and PESTICIDES
: Borates and Boric Acid are very
effective in controlling and eliminating insects and fungi. Though they are not
harmful to mammals, they are toxic against cockroaches, ants, scarabs, larvae,
and other insects, resulting in manipulation at any location and
environment.
- METALLURGY
: Boron is used as a sealing for non-ferrous
metals and used as a deoxidizer and degasifier in metallurgy. Because it absorbs
neutrons. It is used in the production of steel. Traces of Ferro boron in boric
steel increase its strength. Bron eliminates impurities metallurgist systems,
resulting in highly pure material to be used in electrical conductors
especially.
- PHARMACEUTICALS AND COSMETICS
: Boric Acid is recognized
for its application as a pH buffer and as a moderate antiseptic agent and
emulsifier. It is a component of ointments, mouth-washes, eye-drops, bath
salts, creams and shampoos. It
can be
used for skin cooking sensation due to good thermal conductivity.
It is also known boron compounds made with all 10B
isotope selectively destroy cancer cell.
- NUCLEAR APPLICATIONS
: Boron
is used in the shielding material, in neutron detection and in some control
rods of nuclear reactors as it absorbs neutrons.
|