Methyl Isobutyl Carbinol (MIBC)>=99%

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Methyl Isobutyl Carbinol (MIBC)>=99%Our MIBC is a proven frother widely used in treating base metals which produ...read on


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Product detail description

Methyl Isobutyl Carbinol (MIBC)>=99%

Our MIBC is a proven frother widely used in treating base metals which produces a brittle froth. It is especially suited for lead and zinc sulfides at a very fine particle size and high throughput.


WHAT KEMCORE PROVIDES AS A PARTNER?

Reliable Supply

KEMCORE is always prepared to fulfill orders as they're placed and deliver the product customers need.

Commitment to Safety

KEMCORE has been safely and responsibly distributing Methyl Isobutyl Carbinol (MIBC) for decades and continues to make advancements through improved packaging options, on-site unloading services, and comprehensive training for our customers.

Dedicated Support

Whether it’s assisting with Methyl Isobutyl Carbinol (MIBC) handling or regulatory needs like licensing, permitting, and compliance monitoring, support is available.

COUNTRIES OF ORIGIN

  • China
  • USA
  • India
  • France

USES

Our MIBC is a proven frother widely used in treating base metals which produces a brittle froth. It is especially suited for lead and zinc sulfides at a very fine particle size and high throughput. It is also used successfully in coal processing. Our MIBC is an aliphatic neutral frother. It is used in concentrations as low as 900ppm or less.

Other uses of MIBC are:

  • Ingredient in lube oil additives for anti-wear and corrosion inhibitions
  • Additive to surface coatings

FEATURES

  1. Composition of MIBC which is synthetic is more stable, giving consistency and predictability in process outcome
  2. Alcohol group provides a selective, often brittle froth, allowing good control and subsequent material transfer through the launders and pumps
  3. Alcohols generally have no collector properties. The presence of collecting and frothing properties in the same reagent makes selective flotation difficult. A good frother should have negligible collecting power and also produce a froth which is just stable enough to facilitate the transfer of floated mineral from the flotation cell surface to collecting launder.
  4. In processing ore bodies with clays, MIBC can be mixed with pine oil which is less sensitive to the presence of clays

MIBC Guiding Rules

Feature

MIBC

Ores where used

Coal, sulphide ores (Au, Ni, Cu, Cu-Mo, Cu-Au)

Froth quality

Froth power weak, low bubble persistence

Dosage & Addition

20-90g/ton

pH

9-10.5

Other Additives

Some pine oil can be used in synergy if there is clayey material in the ore.

Identifiers

CAS number

108-11-2

ChEMBL

ChEMBL448896

ChemSpider

7622

Properties

Molecular formula

C6H14O

Molar mass

102.174 g/mol

Appearance

colorless liquid

Density

0.8075 g/cm3 at 20 °C

Melting point

−90 °C (−130 °F; 183 K)

Boiling point

131.6 °C (268.9 °F; 404.8 K)

Solubility in water

15 g/L

Solubility

soluble in ethanol, diethyl ether

Vapor pressure

0.698 kPa

Viscosity

4.07 mPa·s


Product application

Synonyms:           Glacial acetic acid; Acetic acid solution; acetic acid 50%;  acetic acid, of a concentration of more than 10 per cent, by weight, of acetic acid; Acetic Acid Glacial BP; Natural Acetic Acid; Acetic acid (36%); Acetic acid, food grade; Acetic Acid Glacial; GAA; Acetic Acid, Glacial 

It is a colourless liquid that when undiluted is also called glacial acetic acid. It has a distinctive sour taste and pungent smell.


Acetic acid uses:  
Additive in industrial explosives in Mining.

Other uses include use of acetic acid in the production of vinyl acetate monomer,  acetic anhydride and ester production. 

 

Chemical gassing agents -In the case of emulsion explosives, using Acetic acid can accelerate the gassing process. The chemically gassed emulsions may take 40 – 50 minutes for completion of gassing within the blast holes, particularly when the emulsion is colder.

In cases where acetic acid is used, it is added to the emulsion prior to gassing, the desired amount of acid is mixed in the emulsion, before adding the gasser.

A gassing solution comprising sodium nitrite in water together with the selected enol compound and acetic acid is introduced into the emulsion explosive at the blast hole by entraining the gassing solution into a stream of the emulsion explosive using pumps.

The solution pH is an important parameter in the gassing of emulsion explosives due to the high cost associated with acid addition therefore a pH value should preferably be maintained at 4.1 or below.




Product composition

Identifiers

Abbreviations

AcOH

CAS number

64-19-7

PubChem

176

ChemSpider

171

UNII

Q40Q9N063P

EC number

200-580-7

UN number

2789

Properties

Molecular formula

C2H4O2

Molar mass

60.05 g mol

Appearance

Colourless liquid

Odor

Pungent/Vinegar-like

Density

1.049 g cm

Melting point

16 to 17 °C; 61 to 62 °F; 289 to 290 K

Boiling point

118 to 119 °C; 244 to 246 °F; 391 to 392 K

Solubility inwater

Miscible

Acidity (pKa)

4.76

Basicity (pKb)

9.198 (basicity of acetate ion)

Refractive index(nD)

1.371

Viscosity

1.22 mPa s

Dipole moment

1.74 D

 

 


Product handling

1-    TRANSPORT INFORMATION

  • Transport-UN 2789
  • Hazard Class No. : 8
  • Packing Group: II
  • H.S. Code:  2915211900

 

2-    STORAGE & HANDLING


-        Stable at room temperature in closed containers under normal STORAGE & HANDLING and handling conditions.  Refer to SDS sheet 


3-    PACKING

  

Packing type

Tons/FCL

IBC Drums

18tons/FCL

30kg Drums

21tons/FCL

200Kg drums

16tons/FCL

 

4.Environmental impact

 

-       Acetic acid biodegrades readily under both aerobic and anaerobic conditions.

 -        Acetic acid does not absorb light with wavelengths >290 nm(4), and is not expected to be susceptible to direct photolysis by sunlight(SRC).

-        Incase of spillage neutralize spill with soda ash or lime.


5. Download our Acetic acid msds for more handling information.