METOLAT® 362 | Munzing Chemie | METOLAT® 362 is yellowish liquid wetting agent for aqueous systems. METOLAT® 362 is a non-ionic, silicone free wetting agent with low foam tendency for water based printing inks, adhesives, emulsion paints and water borne clear as well as pigmented coatin...voir plus METOLAT® 362 is yellowish liquid wetting agent for aqueous systems. METOLAT® 362 is a non-ionic, silicone free wetting agent with low foam tendency for water based printing inks, adhesives, emulsion paints and water borne clear as well as pigmented coatings. METOLAT® 362 improves substrate and pigment wetting. It shows a very broad pH stability. voir moins | |
METOLAT® 365 | Munzing Chemie | METOLAT® 365 is a yellowish, clear non-ionic, silicone free wetting agent with low foam tendency for water based printing inks, adhesives, emulsion paints and water borne clear as well as pigmented coatings. METOLAT® 365 improves substrate and pigment we...voir plus METOLAT® 365 is a yellowish, clear non-ionic, silicone free wetting agent with low foam tendency for water based printing inks, adhesives, emulsion paints and water borne clear as well as pigmented coatings. METOLAT® 365 improves substrate and pigment wetting. It shows a very broad pH stability. voir moins | |
METOLAT® 366 | Munzing Chemie | METOLAT® 366 is a low foaming non-ionic yellowish liquid wetting agent for water-based printing inks, adhesives and clear as well as pigmented coatings. It improves substrate wetting and levelling by reduction of surface tension. METOLAT® 366 shows defoam...voir plus METOLAT® 366 is a low foaming non-ionic yellowish liquid wetting agent for water-based printing inks, adhesives and clear as well as pigmented coatings. It improves substrate wetting and levelling by reduction of surface tension. METOLAT® 366 shows defoaming properties in many systems. voir moins | |
METOLAT® 600 | Munzing Chemie | METOLAT® 600 a yellowish, clear aqueous solution of modified acrylic copolymer. METOLAT® 600 is an additive designed to increase the water retention of paper coating colours. Due to its moderate thickening effect in combination with high water retention M...voir plus METOLAT® 600 a yellowish, clear aqueous solution of modified acrylic copolymer. METOLAT® 600 is an additive designed to increase the water retention of paper coating colours. Due to its moderate thickening effect in combination with high water retention METOLAT® 600 is recommended for all coating colours in which the water retention should be improved without increasing the viscosity. voir moins | |
METOLAT® 700 | Munzing Chemie | METOLAT® 700 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and indust...voir plus METOLAT® 700 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and industrial coatings, overprint varnishes, and adhesives. METOLAT® 700 is characterized by medium foam tendencies and a density of 8.10 lbs/gal at 20°C. voir moins | |
METOLAT® 725 | Munzing Chemie | METOLAT® 725 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, coatings - architectural, wood...voir plus METOLAT® 725 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, coatings - architectural, wood and industrial, overprint varnishes, and adhesives. METOLAT® 725 is characterized by low foam tendencies and a density of 8.08 lbs/gal at 20°C. voir moins | |
METOLAT® 750 | Munzing Chemie | METOLAT® 750 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and indust...voir plus METOLAT® 750 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and industrial coatings, overprint varnishes, and adhesives. METOLAT® 750 is characterized by low foam tendencies and a density of 7.94 lbs/gal at 20°C. voir moins | |
METOLAT® 775 | Munzing Chemie | METOLAT® 775 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and indust...voir plus METOLAT® 775 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and industrial coatings, overprint varnishes, and adhesives. METOLAT® 775 is characterized by low to no foam tendencies and a density of 7.88 lbs/gal at 20°C. voir moins | |
METOLAT® 780 | Munzing Chemie | METOLAT® 780 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and indust...voir plus METOLAT® 780 is part of a liquid wetting agent series for aqueous systems. They are dispersing and wetting agents for carbon blacks for aqueous coatings and pigment concentrates. Their main applications include printing ink, architectural, wood and industrial coatings, overprint varnishes, and adhesives. METOLAT® 780 is characterized by low to no foam tendencies and a density of 7.85 lbs/gal at 20°C. voir moins |