NIPACIDE BSM

CAS NUMBER: 55406-53-6

EC NUMBER: 259-627-5

 

Nipacide BSM is an In-can biocide based on BIT/MIT.
Nipacide BSM is an, isothiazolinone blend, water based, low toxicity biocide, developed for the complete in-can protection of water based products. 

Nipacide BSM is effective against a wide range of microorganisms including gram positive and gram negative bacteria, yeast and fungi. 
Microorganisms grow at a rapid rate and without use of the correct biocide, numbers can increase dramatically. 

Nipacide BSM is recommended for preservation of a wide range of applications including water based, casein, and PVA adhesives. 
Polymer emulsions including, SBR latex, Polyvinyl acetate and acrylic. 

Water based decorative paints, household products including dishwashing liquids, car care products, metal working fluids, Calcium Carbonate and Kaolin mineral slurries. 
Nipacide BSM is effective against a wide range of spoilage organisms and effective up to pH 10 and temperature stable up to 60°C.

At recommended use concentrations there is no requirement to label as skin sensitizer R43.
Nipacide BSM should be evaluated in finished products at levels between 0.10 % and 0.40 %. 

Nipacide BSM is compatible with most raw materials used in the manufacture of industrial products. 
Nipacide BSM compatibility should always be checked and evaluated before use. 

Nipacide BSM is recommended for preservation of a wide range of applications including water based, casein, animal bone based and PVA adhesives. 
Polymer emulsions including, SBR latex, Polyvinyl acetate and acrylic. 

Water based decorative paints, metal working fluids, Calcium Carbonate and Kaolin mineral slurries and concrete add-mixtures. 
Nipacide BSM is effective against a wide range of spoilage organisms and effective over a wide pH and temperature range. 

Nipacide BSM should be the biocide of choice for products with pH >8 and production temperatures of >40 C. 
Nipacide BSM should be evaluated in finished products at levels between 0.1% and 0.25%. 

Please note that Nipacide BIT20 above 0.25% requires R43 (causes sensitization by skin contact) hazard labeling. 
Nipacide BSM is compatible with most raw materials used in the manufacture of industrial products. 

Nipacide BSM is a glycol based solution; low toxicity biocide developed for the complete in-can protection of water based products. 
Nipacide BSM is effective against a wide range of microorganisms including gram positive and gram negative bacteria, yeast and fungi. 

Microorganisms grow at a rapid rate and without use of the correct biocide, numbers can increase dramatically. 
Nipacide BSM is an in-can biocide based on BIT.

Nipacide BSM is a glycol based solution; low toxicity biocide developed for the complete in-can protection of water based products. 
Nipacide BSM is effective against a wide range of microorganisms including gram positive and gram negative bacteria, yeast and fungi.

Nipacide BSM can be used over a wide pH and temperature range. Nipacide BIT 20 should be the biocide of choice for products with pH >8 and production temperatures of >40 C.
Nipacide BSM is an in-can biocide based on formaldehyde chloromethyl and methylisothiazolinone. 

Nipacide BSM is water based low toxicity isothiazolinone/ formaldehyde donor biocide, developed for the complete in-can and head space protection of water based products. 
Nipacide BSM is effective against a wide range of microorganisms including gram positive and gram negative bacteria, yeast and fungi.

When products are prone to surface contamination by fungi and head space protection is required, Nipacide BSM should be the biocide of choice. 
Nipacide BSM is effective against a wide range of spoilage organisms effective over a wide pH and temperature range.

Nipacide BSM is a formaldehyde-free, in-can biocide based on benzisothiazolinone (BIT).
Nipacide BSM should be evaluated in finished products at levels between 0.01% and 0.03%. 

Please note, however, that the use of Nipacide BSM above 0.01% requires R43 (causes sensitization by skin contact) hazard labeling. 
If labeling is an issue Nipacide BSM is recommended you consider an alternative Clariant biocide, either CMIT/MIT free or a CMIT/MIT combination biocide eg Nipacide CFX 4 or Nipacide IB.

Nipacide BSM is recommended for preservation of a wide range of applications including water based /Latex/PVA adhesives, PVA / Acrylic polymer emulsions, water based decorative paints, printing inks, metal working fluids and construction admixtures. 
Nipacide BSM is effective against a wide range of common spoilage organisms. 

Thermal and pH stability for Nipacide BSM is a critical consideration and it should not be use for products with pH >8.5 or production temperatures of >40 0C. 
Great care should be taken when using this material due to its corrosive nature and Nipacide CI 15 should be a serious consideration for most applications as a dilute, safer to handle, alternative.

Nipacide BSM can also be used for reduction in microbial spoilage of industrial water cooling systems.
Nipacide BSM is a water based biocide, developed for the complete in-can protection of water based products including water based /Latex/PVA adhesives, PVA / Acrylic polymer emulsions, water based decorative paints, printing inks, metal working fluids and construction admixtures.

Nipacide BSM is recommended to conduct trials for new applications to access the performance of the biocide in the product in terms of stability, compatibility and biological effectiveness. 
Nipacide BSM is the simplest member of the aromatic carboxylic acid family. 

Nipacide BSM is a weak acid that is a precursor for the synthesis of many important organic compounds. 
More than 90 percent of commercial Nipacide BSM is converted directly to phenol and caprolactam. 

Nipacide BSMs use in the production of glycol benzoates for the application of plasticizer in adhesive formulations is increasing. 
The organic compound is also used in the manufacture of alkyd resins and drilling mud additive for crude oil recovery applications. 

Nipacide BSM is also used as a rubber polymerization activator, retardant, resins, alkyd paint, plasticizers, dyestuffs, and fibers. Nipacide BSM and its esters occur in apricots, cranberries, mushrooms and jasmine plants. 
The history of Nipacide BSM dates back to sixteenth century. In the year of 1875 Salkowski a prominent scientist discovered its antifungal abilities. 

In medicine, Nipacide BSM is the principal component of benzoin resin, and is a constituent of Whitfield’s ointment which is used for the treatment of fungal skin diseases such as tinea, ringworm, and athlete’s foot.
Nipacide BSM and sodium benzoate are commonly used food preservative. 

In acidic conditions, Nipacide BSM has inhibitory effect on yeast and mold. 
When pH value is 3 antibacterial strength, when pH was 6 for a lot of mould effect is very poor, so the inhibition the optimum pH value is 2.5-4.0. 

In the food industry with plastic barrels concentrated fruit and vegetable juice, the maximum usage shall not exceed 2.0g/kg; in the jam (not including canned), fruit juice (taste) drinks, soy sauce, vinegar in the maximum amount is 1.0g/kg; in Wine, candy, wine in the maximum amount of 0.8g/kg in the low salt; pickles, sauces, candied fruit, use the largest 0.5g/kg in carbonate; use the largest beverage 0.2g/kg. 
Because of solubility of Nipacide BSM, when used will be stirring, or dissolved in a small amount of hot water or ethanol. 

The use of concentrated fruit juice in the soft drink used for Nipacide BSM easily volatile with steam, Nipacide BSM is commonly used in the sodium salt. Nipacide BSM in food industry is a common preservative in dairy products, but not allowed to be added. 
In general, Nipacide BSM is considered to be safe. But for some special populations, including infants, long-term intake of Nipacide BSM may lead to asthma, urticaria, metabolic acidosis and other adverse reactions. 

Nipacide BSM is also used as a beverage. As the cream sweet perfume fragrance. 
Can also be used for chocolate, lemon, orange, sub berries, nuts, candied fruit and other edible flavor type. 

Nipacide BSM also commonly used. 
In addition of Nipacide BSM is also used as a pesticide, medicine, dye, mordant and plasticizer agent for the production of raw materials, polyamide resin and alkyd resin modifying agent and steel equipment anti rust agent.

Nipacide BSM is effective against a wide range of microorganisms including gram positive and gram negative bacteria, yeast and fungi. 
Thermal and pH stability for Nipacide BSM is a critical consideration and it should not be used for products with pH >8.5 or production temperatures of >40 °C.

Nipacide BSM is a water based biocide based on a combination of isothiazolinones and formaldehyde donor for the complete in-can and head space microbiological protection of industrial water based products against bacterial and fungal spoilage in the wet state. 
Nipacide BSM demonstrates a broad spectrum of activity with fast action against microbial contamination in various applications. 

Nipacide BSM is recommended for the preservation of a wide range of applications including water based adhesives, polymer emulsions, water based decorative paints, pigment slurries, metal working fluids, sealants and tile grouts, household products, printing inks, car care products and construction chemicals where protection against fungi and bacteria is required in the wet state.
Nipacide BSM is effective against a wide range of common spoilage organisms including gram positive and gram negative bacteria, yeast and fungi. 

Nipacide BSM can be used over a pH range 4 - 9 and temperature range up to 40°C (short period up to 60°C). 
When products are prone to surface contamination by fungi and head space protection is required, Nipacide BSM should be the biocide of choice as Nipacide BSM is particularly effective at providing head space protection, in-can, by the controlled release of formaldehyde.

Nipacide BSM should be evaluated in finished products at levels between 0.1% and 0.3% based on the total weight of the finished product. 
Nipacide BSM above 0.30% requires R43 (causes sensitization by skin contact) hazard labeling.
The dosage required to adequately preserve the product depends on various factors including the nature and susceptibility of the product to microbial degradation, initial microbial content in the product, processing and storage conditions.

 

 

USES:

-Used as a chemical reagent and preservative.

-Nipacide BSM is important type food preservative. 

-Under acidic conditions, Nipacide BSM has inhibitory effects to mold, yeast and bacteria , but the effect is weak acid producing bacteria. 

-The most appropriate antimicrobial pH values is ranging from 2.5 to 4, generally lower, the pH value is appropriate from 4.5 to 5. 

-In the food industry with plastic barrels concentrated fruit and vegetable juice, the maximum use amount shall not be over 2.0g/kg; in jam (excluding canned), (taste) juice drink, soy sauce, vinegar in the maximum dose of 1.0g/kg; in soft candy, wine, wine in the maximum dose of 0.8 g/kg separately; in the low salt pickled vegetables, the sauce, candied fruit, maximum dose is 0.5 g/kg; in carbonated drinks in the largest amount of use is 0.2g/kg. due to Nipacide BSM, slightly soluble in water, its use can be a small amount of ethanol enable dissolved.

-Preservative; anti microbial agents.

-Due to the low solubility of Nipacide BSM and use shall be stirring, or dissolved in a small amount of hot water or ethanol. When used in the soft drink with fruit juice concentrate, for Nipacide BSM easy volatile with the water vapor, so often used in the sodium salt, besides the above sodium equivalent to Nipacide BSM 0.847g.

-Often used as a fixative agent or preservative. Also used as a fruit juice aroma conservation agents. 

-As a perfume with perfume fragrance. Can also be used for chocolate, lemon, orange, berries, nuts, candied fruit type edible essence. Tobacco flavor is also commonly used.

-Nipacide BSM and Nipacide BSMs sodium salt are food preservatives. 

-Under acidic conditions, Nipacide BSM has inhibition of yeasts and molds. When pH 3, antibacterial strength and when pH 6, many fungi effect is very poor, so the antibacterial optimum pH is 2.5-4.0. 

-Nipacide BSM is mainly used for the production of sodium benzoate preservatives, dyes intermediates, pesticides, plasticizers, mordant, medicine, spice and also can be used as alkyd resin and polyamide resin modifier for the production of polyester, terephthalic acid and used equipment, iron and steel anti rust agent.

-Mainly used for antifungal and antiseptic.

-Used in medicine, dye carriers, plasticizer, spices and food preservatives such as production, and can also be used to paint of alkyd resin performance improvement; used as pharmaceutical and dye intermediates, used for the preparation of plasticizer and spices etc., as well as equipment, iron and steel anti rust agent.

 

 

-Organic pigment

-Carbon black

-Inorganic pigment

-Water-borne paints

-Solvent-borne paints

-Styrene/Acrylate dispersions

-Acrylate dispersions

-Vinyl acetate dispersions

-Butadiene/Styrene latex

 

 

APPLICATIONS:

Nipacide BSM as antiseptic agent can be widely used in Latex paint、Waterborne wood coatings、Waterborne polymers、adhesive、inks、Dye dispersion、Liquid paraffin and such like aqueous system etc.
General using concentration:0.1-0.4％（w/w), Nipacide BSM depends on the storage environment of product and whether the product are easy to be eroded by Microorganism. 

 

-water-based / Latex / PVA adhesives

-PVA / Acrylic polymer emulsions

-water based decorative paints

-printing inks

-metal working fluids 

-construction admixtures

 

 

FEATURES:

-Broad-spectrum sterilization, kill various of bacteria,Fungus and Yeast

-Good compatibility to kinds of emulsifier and surface active agent.can be dissolved with alcohol and water under any proportion

-Suitable for more wider PH range compare to the Similar products,PH value between 2 to 14 all workable

-Strong stability.storage during -20℃to 40℃ for one year, no changes.even at 150℃, active ingredient is also stable.

-Lox toxicity, Free of heavy metal and halogen compound.

-Stable to Amine compounds.

-Free of formaldehyde, low odour, non VOC

 

 

BENEFITS:

-Low VOC

-APEO Free

-Solvent Free

-pH Stable

-Temperature Stable

-Bactericide

-Fungicide

 

 

SPECIFICATIONS:

-Product class: Mixture of Isothiazolinone

-Physical Form: Solution

-Active content (ca.): 5%

-pH stability: 2-10

-Temperature stability: 60°C

-Recommended Use Level: 0.2 - 0.4%

 

 

SYNONYM:

1 ,2-benzisothiazol-3-(2H)-one 
1,2-benzisothiazol-3(2H) -one 
1,2-benzisothiazol-3(2H)-one, sodium salt
1,2-benzisothiazol-3(2H)-one/1,2-benzisothiazolin-3-one 
1,2-benzisothiazol-3-one; 1,2-BENZOTHIAZOL-3(2H)-ONE; 1,2,bencisotiazol-3-ona (es) 
1,2-bencisotiazol-3(2H)-ona (es); 1,2-Bencisotiazol-3(2H)-ona (BIT) (es) 
1,2-bensisotiasool-3(2H)-oon (et)
1,2-bensisotiasool-3(2H)-oon (BIT) (et)
1,2-bensisotiasool-3-oon (et)
1,2-bensisotiazol-3(2H)-on (BIT) (sv) 
1,2-bentsisotiatsol-3(2H)-oni (fi) 
1,2-bentsisotiatsol-3(2H)-oni (BIT) (fi) 
1,2-bentsisotiatsolin-3-oni (fi) 
1,2-benzisothiazol-3(2H)-on (da) 
1,2-Benzisothiazol-3(2H)-on (BIT) (de) 
1,2-benzisothiazol-3(2H)-one (BIT) (no) 
1,2-benzisothiazol-3(2H)-one
1,2-benzisothiazolin-3-one (fr) 
1,2-benzisothiazole-3(2H)-one (BIT) (fr) 
1,2-Benzisothiazolin-3-on (de) 
1,2-benzisothiazool-3(2H)-on (nl) 
1,2-Benzisothiazool-3(2H)-on (BIT) (nl) 
1,2-benzisotiazol-3(2<I>H</I>)-on (hr) 
1,2-benzisotiazol-3(2H)-on (no)
1,2-benzisotiazol-3(2H)-ona (pt) 
1,2-benzisotiazol-3(2H)-ona (BIT) (pt) 
1,2-benzisotiazol-3(2H)-one (it)
1,2-benzisotiazol-3(2H)-one (BIT) (it) 
1,2-benzisotiazol-3(2H)-onă (BIT) (ro) 
1,2-Benzothiazol-3-one
2,3-dihydro-1,2-benzothiazol-3-one 
Benzisothiazol- 3(2h)-one 
benzo[d]isothiazol-3-one