- 2-Ethylhexanoate corrosion inhibitor in engine coolants
- Alkoxylated polyols improve the performance of cast TDI polyether elastomers
- Boltorn™ H311 as load builder in molded high resilience foam
- Boltorn™ P500 A unique tool to reduce the density of moulded automotive foam
- Calcium Formate (CaFo) Additives in Tile Adhesives
- High – resilient slabstock
- Hydrolytic stability - polyol esters
- Improving the hardness of flexible foam by addition of Polyol 4640
- Influence of hydroxyl functionality and acid number on the softening point of rosin esters
- Polyol 3990 and Polyol 4800 – High speed crosslinkers for polyurethanes
- Polyol 3990 and Polyol 4800 as crosslinkers for polyurethanes - A general overview
- Polyol 3990 and Polyol 4800 as crosslinkers for semi-rigid foams
- Polyol esters of tall oil rosin
- Polyols for surface treatment of pigments and mineral filler
- Preparation of calcium octoate drier 4 per cent
- Preparation of cobalt octoate
- Preparation of overbased Calcium Octoate 9 per cent
- Replacement of glycerol by Pentaerythritol and Trimethylolpropane in tall oil rosin esters
- Tall oil rosin esters with various ratio between Pentaerythritol and Trimethylolpropane
- Trimethylolpropane in insulation foam for district heating systems
- Trimethylolpropane versus glycerol as starter alcohol for polyether polyols
- Alkyd for acid curing lacquers with low odour level
- Bio Glycerine in air drying and stoving alkyds
- Boltorn™ W3000 - The tool for making water extended solvent borne alkyd paint
- Chain-stopped fast drying alkyds for wood stains
- Comparison between mono and EXCETEQ Pentaerythritol in long oil alkyds
- Comparison between Pentaerythritol and Di-Trimethylolpropane in long oil alkyds
- Comparison of glycols in short oil baking alkyds
- Diluting air-drying alkyd for reaching VOC demands
- Di-Trimethylolpropane modified air-drying alkyds - weatherability
- Esterification stability of Di-Trimethylolpropane
- Fast drying and curing short-oil alkyd
- High solid air drying alkyd with excellent outdoor durability
- High solid air drying alkyds on Di-Pentaerythritol
- How to minimize alkyd colour using Perstorp Glycerine tech
- How to replace soybean oil with tall oil fatty acid and Pentaerythritol in air drying alkyds
- Influence of hydroxyl functionality and acid number on the softening point of rosin esters
- Long oil air drying urethane alkyds
- Low cost air drying chain-stopped alkyds based on Polyol PX
- Medium long oil alkyd resin formulation for all around applications
- Neo superior to MEG in stoving non-drying alkyds
- Non-yellowing alkyd based on 2-Ethyl Hexanoic Acid
- Outdoor exposure comparison - Glycerol - Trimethylolpropane - Pentaerythritol - Mono ethylene glycol
- Pentaerythritol and ethylene glycol replaced by Pentaerythritol and Polyol PX in alkyds
- Polyol esters of tall oil rosin
- Polyol PX in air drying alkyds with soya bean oil
- Polyol PX in air drying medium and long oil alkyds
- Reactive diluent for high solid air drying alkyds
- Replacement of Glycerol by a combination of Trimethylolpropane and Pentaerythritol
- Replacement of Glycerol by Pentaerythritol - Ethylene glycol
- Replacement of Glycerol by Pentaerythritol and Trimethylolpropane
- Replacement of glycerol by Pentaerythritol and Trimethylolpropane in tall oil rosin esters
- Short oil air drying alkyds based on Pentaerythritol
- Short oil alkyd resin formulation for all around applications
- Solvent borne alkyd containing Boltorn™ W3000 for water extended paints
- Start formulation air drying alkyd based on soybean oil
- Styrenated long oil alkyd
- Tall oil rosin esters with various ratio between Pentaerythritol and Trimethylolpropane
- The effect of the Di-Pentaerythritol content in high solid air drying alkyds
- Trimethylolpropane compared with Pentaerythritol and Neopentyl Glycol
- Trimethylolpropane for higher solids in alkyds
- Trimethylolpropane modified acid curing medium oil alkyd
- Two component polyurethane formulation
- Very fast air drying alkyd, completely dilutable in low-aromatic hydrocarbons
- High gloss saturated polyester on Di-Trimethylolpropane for high quality enamels
- Linear saturated polyester based on 2-methyl-1,3 propanediol
- Neo superior to MEG in stoving non-drying alkyds
- Polyester compared to a non-drying alkyd
- Saturated isophthalic acid polyester
- Saturated polyester based on Neopentyl glycol and Trimethylolpropane
- Trimethylolpropane compared to Trimethylolethane in saturated polyesters
- Volatile glycols in saturated polyesters a two stage procedure
- Bis-MPA™ for water reducible alkyds
- Introduction to Vegetable Oils and Fatty Acids
- Leather coating finish
- Polyurethane dispersions provide sustainable technology for combining performance with the ease of application
- Solvent free polyurethane dispersion
- Substitute solvents for N-methyl pyrrolidinone in polyurethane dispersions
- UV PUDs containing acrylated polyols
- UV PUDS made from partially acrylated polyols giving excellent properties in exposed and shaded areas
- Ymer™ For tailor-made PUDs
- Ymer™ N120 - Nonionic polyurethane dispersions
- Boltorn™ P1000 A unique low viscous dendritic precursor for radiation curing
- Boltorn™ P500 A unique precursor for UV and EB hardcoats
- High functionality polyols for radiation curing
- Monofunctional acrylic monomer based on Cyclic Trimethylolpropane Formal
- Oxymer TM M112 - For superior properties in radiation curing
- Perstorp Polyols in radiation curing
- Perstorp products in UV cationic/free-radical hybrid curing systems for Inks and Varnishes
- Polyol R2490 as precursor for reactive diluent in radiation curing
- Precursors for reactive diluents in radiation curing
- UV and 2K PUR dual cure clear coats for exterior applications
- UV PUDs containing acrylated polyols