The Universal Selection Source:
Coatings Ingredients


Technical DataSheet | Supplied by TBF Environmental Technology

KradaSol™ by TBF Environmental Technology, is a safe, low toxicity alternative for hexane, toluene, xylene, aromatic 100, cyclohexane, methyl amyl ketone (MAK), perchloroethylene and butyl acetate. Acts as a benzene-free, non-carcinogenic, biodegradable, clean air primary or co-solvent (green solvent). It has a very low Maximum Incremental Reactivity (MIR) value and does not contain any hazardous air pollutants (HAPs) and environmentally hazardous ingredients as well as ozone depleting or creating chemicals. Exhibits higher flash point, lesser flammability, very low toxicity, comparable physicochemical characteristics, slower evaporation rate (useful in dissolution) and surface tension, dispersion properties and greater solvency & solubility. Offers improved flow characteristics, high loading capacity and 10-25% more efficiency in viscosity reduction requiring less solvent and decreasing costs. It works exceptionally well in the dissolution of bi- & tri-hydrogenated and non-hydrogenated block polymers. It is easy to distill, recycle, dries completely and leaves no surface residues. Suitable for paints, coatings, printing inks and varnishes. KradaSol™ is 100% VOC-compliant in US (EPA) and Canada (Canadian Environmental Protection Act (CEPA) and the National Pollutant Release Inventory (NPRI)) and considered an Ultra-low VOC in South Coast Air Quality Management District (SCAQMD) and California Air Resources Board (CARB). In the European Union (EU), all components of KradaSol™ are registered under REACH.

KradaSol™ Product details

Product Type
Product Launch Date
Product Status
Applications/ Recommended for
  • xxxxxxxx
  • xxxx
  • xxxxxxxxxxxxxxxxxxxxxxxxx
Labels/Agency Rating

KradaSol™ Properties


Value & Unit
Test Condition
Test Method
Upper Explosive Limit (UEL)
xxxxx %
Lower Explosive Limit (LEL)
xxxx %
Auto ignition temperature
xxxxx °C
xxxx °C
Average molecular weight
xxxxxx g/mol
Initial boiling point
xx °C
Melting point
xxxxx °C
Density @ 25 °C
xxxx g/mL
Viscosity @ 25 °C
xxxx cP
Surface tension
xxxx dynes/cm
Specific gravity
Solubility in H2O @ 25 °C
xxxxxx g/mL
Evaporation rate (n-Butyl Acetate = 1)
Vapor pressure @ 20 °C
xxxxx mm Hg
Vapor density (Air = 1)
xxxx mm Hg
Kauri butanol (Kb) value
Maximum Incremental Reactivity (MIR) { California Air Resources Board (CARB) }
xxxxxx g O3/g VOC
Purity (wt %)
xxxxxx %
Water content
xxxxx ppm
Color (clear)
xxx Alpha
xxx %
Heat of combustion
xxxxxx kcal/kg
Heat of vaporization
xxxx kJ/mol
Specific heat capacity
xxx J g-1 K-1
Molar heat capacity
xxxxx J mol-1 K-1
xxx g/l
Global warming potential (100 year GWP)
Hansen solubility parameters, total
xxxxx MPa1/2
δD (dispersion)
δP (polar)
δH (hydrogen bonding)
VOC Content (US EPA)
x %
Last edited Jun 8, 2016
Back to Top