GENAPOL PF 80 FP

GENAPOL PF 80 FP
CAS NO :9003-11-6
SYNONYMS :1,2-Ethanediol, polymer with 1,2-propanediol;1,2-Propanediol polymer with ethylene oxide;1,2-Propanediol, polymer with 1,2-ethanediol;333E;50MB-26X;75H380000;75H90000;75HB1440;Acclaim 2220N;Acclaim 4220N;Actcol ED 56;Actcol MF 12;Actcol MF 18;Actcol NF 04;Actinol P 3035;Adeka Carpol MH 150;Adeka Carpol MH 500;Adeka Carpol PH 2000;Adeka CM 211;Adeka CM 294;Adeka L 31;Adeka PR 2008;Adeka PR 3007;Adekanol L 62;Adekanol NP 1200;Alkan 416;Alkox EP 10;Alkox EP 10X;Alkox EP 20X;Arlatone F 127G;Atlas SF 131;Balab 615;Benzene, ethenyl-, polymer with methyloxirane, oxirane and phenol, block;Berol 370;Berol 374;Berol TVM 370;Blaunon EP 1461;Blaunon P 172;Blaunon P 201;Bloatguard;Breox 50A1000;Breox 75W270;Breox PAG 50A1000;BSP 5000;Carpol 2040;Carpol 2050;CE;CF 0802;COPOLYMER, POLYOXYETHYLENE POLYOXYPROPYLENE;CP 1000;CP 1000 (polyoxyalkylene);CP 1000L;CP 2000;CP 2000 (glycol);CP 2000L;D 10;DE 1;DE 1 (demulsifier);Desmophen 7100;Desmophen L 2830;Dezemulsionat E 96;Disfoam CC 222;Dissolvan 4411;ED 36;EL 551;Emkalyx EP 64;Emkalyx L 101;Emkarox VG 1051W;Emkarox VG 217W;Emkarox VG 379W;Emkarox VG 650W;Emulgen PP;Emulgen PP 150;Emulgen PP 250;Emulgen PP 290;EP,
1660;Epan 610;Epan 70;Epan 720;Epan 742;Epan U 102;Epan U 103;Epan U 105;Epan U 180;ETHOXYLATED POLYOXYPROPYLENE;ETHOXYLATED POLYPROPYLENE;Ethylene glycol polyethylene-polypropylene glycol ether (1:2);Ethylene glycol-propylene glycol copolymer;Ethylene glycol-propylene glycol polymer;ETHYLENE OXIDE PROPYLENE OXIDE COPOLYMER;Ethylene oxide-propylene oxide copolyme;Ethylene oxide-propylene oxide copolymer ethylene glycol ether;Ethylene oxide-propylene oxide copolymer, ethylene glycol ether (2:1);Ethylene oxide-propylene oxide polyme;Excenol 2026T;Exocorpol;FT 257;Genapol PF;Genapol PF 10;Genapol PF 20;Genapol PF 80;Genapol PFIO;Glycols, polyethylene-polypropylene;Gran Up US 30;Hiflex 443;Hilube D 550;Hilube TB 1120;Industrol N 3;Jeffox FF 200;Jeffox PPG 2000;KRE 15;KWC-Q;L 5050;Laprol 1502-2-70;Laprol 1601;Laprol 2402C;Laprol 4202-2B30;Laprol 5002-2B30;Laprol D 10;LF 40;LF 40 (polyether);LF 62;LF 62 (polyether);Lupranol 2020;Lupranol 2022;M 90/20;MAG 540-90DT;Magcyl;Mazu DF 204;Methyl oxirane polymer with oxirane;methyloxirane polymerise avec l'oxirane;Methyloxirane-oxirane copolymer;Methyloxirane-oxirane polymer;MM 8750;Monolan 12000E80;Monolan PB;Multranol 9111;Multranol 9182;N 480;Nalco SPF-WTB 33;Newpol 75H90000;Nissan Disfoam CC 222;Nissan Nonion A 10R;Nissan Unilube 25DE;Nissan Unilube 30DP3B;Nissan Unilube 50MB168X;Nissan Unilube 50MB26X;Nissan Unilube 50TG32U;Nissan Unilube 60DP5B;Nissan Unilube 750DE2620;Nissan Unilube 75DE170;Nissan Unilube 75DE25;Nissan Unilube 75DE3800;Nissan Unilube 75DE5000;Nissan Unilube 80DE120U;Nissan Unilube 80DE40E;Nissan Unilube 80DE40U;Nissan Unilube DE 60;Nixolen;Nixolen NS 4;Nixolen SL 19;Nixolen SL 8;Nixolen VS 13;Nixolen VS 2600;Nixolen VS 40;Nonion A 10R;NSC 63908;Nutek 7C;OHV 112;OHV 168.2;OHV 56.1;OHV 84.1;Oligoether L 1502-2-30;Oxalgon;Oxilube 50/150;Oxilube 50000;Oxirane, 2-methyl-, polymer with oxirane;Oxirane, methyl-, polymer with ethenylbenzene, oxirane and phenol, block;Oxirane, methyl, polymer with oxirane;Oxirane, methyl-, polymer with oxirane;Oxirane, methyl-, polymer with oxirane (12;136);Oxirane, methyl-, polymer with oxirane (12;23);Oxirane, methyl-, polymer with oxirane (12;4);Oxirane, methyl-, polymer with oxirane (12;9);Oxirane, methyl-, polymer with oxirane (18;14);Oxirane, methyl-, polymer with oxirane (18;163);Oxirane, methyl-, polymer with oxirane (18;34);Oxirane, methyl-, polymer with oxirane (18;51);Oxirane, methyl-, polymer with oxirane (18;6);Oxirane, methyl-, polymer with oxirane (21;15);Oxirane, methyl-, polymer with oxirane (21;39);Oxirane, methyl-, polymer with oxirane (21;7);Oxirane, methyl-, polymer with oxirane (7;22);Oxirane, methyl-, polymer with oxirane (7;91);Oxirane, methyl-, polymers with oxirane;Oxirane, polymer with ethenylbenzene, methyloxirane and phenol, block;Oxirane-methyloxirane copolyme;Oxirane-methyloxirane polymer;Oxirane-propylene oxide copolymer;Oxyethylene-oxypropylene polymer;Oxypropylene-oxyethylene copolymer;PAG;PAG 1;PAG 1 (polyglycol);PAG 2;PEG 600PR;PEP 101;Pepol AS 053X;PF 732;PF 80;Phenol, polymer with ethenylbenzene,methyloxirane and oxirane, block;Pluracol 686;Pluracol V;Pluradyne FL 11;Pluriol L 64;Pluriol SC 9361;Poloxalcol;Poloxalene;Poloxalene 2930;Poloxalene L 64;Poloxalkol;Poly(ethylene/propylene) glycol;Poly(oxyethylene) poly(oxypropylene) glycol;Poly(oxyethylene)-poly(oxypropylene) polymer;Poly(propylene oxide-ethylene oxide);Polyethylene glycol, propoxylated;Polyethylene oxide-polypropylene oxide;Polyethylene oxide-polypropylene oxide copolymer;POLYETHYLENE PROPROPYLENE GLYCOL;POLYETHYLENE-POLYPROPYLENE GLYCOL;Poly-G 83-48;Poly-G WT 90000;Poly-G WT 9150;Polyglycol D 21/150;Polyglycol EP 530;Polylon 13-5;Polyoxyethylenated poly(oxypropylene);Polyoxyethylene oxypropylene;Polyoxyethylene polyoxpropylene glycol;POLYOXYETHYLENE POLYOXYPROPYLENE;POLYOXYETHYLENE POLYOXYPROPYLENE GLYCOL;Polyoxyethylene-polyoxypropylene;Polyoxyethylene-polyoxypropylene copolymer;Polyoxyethylene-polyoxypropylene glycol;Polyoxyethylene-polyoxypropylene polymer;Polyoxyethylenepropylene glycol ether;Polyoxypropylene-polyoxyethylene copolymer;Polypropylene glycol-ethylene oxide copolymer;PPG Diol 3000EO;Pr 168;PR 3007;Prevocell EO;PRO 21;Proksanol;Propylene glycol, propoxylated, ethoxylated;Propylene oxide, polymer with ethylene oxide;Propylene oxide-ethylene oxide copolymer;Propylene oxide-ethylene oxide polymer;Propylene oxide-oxirane copolymer;Proxanol;Proxanol 158;Proxanol 168;Proxanol 186;Proxanol 224;Proxanol 228;Proxanol P 168;Proxanol P 268;Proxanol TsL 3;PS 072;RC 102;Regulaid;Rokopol 30P9;Sannix PE 75;Sannix PL 910;SBU 0319;Separol 29
Separol WF 34;Separol WF 41;Separol L 61;SKF 18667;Slovanik;Slovanik 1070/7;Slovanik 610;Slovanik 630;Slovanik 660;Slovanik M;Slovanik M 340;Slovanik PV 670;Slovanik T 310;Slovanik T 320;Slovanik T 630;Supronic B 50;Supronic B 75;Supronic E 800;Surflo HS 1;Synalox 50-50B;Synthionic 80-20;Systol T 154;Teric PE;Teric PE 40;Teric PE 60;Teric PE 61;Teric PE 62;Teric PE 64;Teric PE 68;Teric PE 70;TsL 431;TVM 370;Ucon 25H;Ucon 75H;Ucon 75H1400;Ucon 75H450;Ucon 75H90000;Unilube 50MB168X;Unilube 50MB26X;Unilube 75DE5000;Unilube 80DE120U;Unilube 80DE40U;Upol U;Velvetol OE 2NT1;Voranol 222-056;Voranol 5287;Voranol P 2001;WL 1590;WL 440;WS 661;Wyandotte 7135;X 423;X 427;XD 8379;XUS 15176;Yukol 4813;Z 4;Z 4 (demulsifier);Zeospan 8100;Zeospan 8100L;ZS 2185;ZSN 8100;ZSP 8100L

Genapol PF 80 is used as nonionic emulsifier for the emulsion polymerization of monomers like acrylates, styrene-acrylates and vinyl acetate. Genapol PF 80 is used as nonionic emulsifier for the emulsion polymerization of monomers like acrylates, styrene-acrylates and vinyl acetate.
Genapol PF 80 is a material used as a dispersing and wetting agent in the building industry. Propylene oxide and it is the polymerized product of ethylene oxide.
Genapol PF 80 is a breathable dispersing and wetting material used in cement, lime and gypsum based plasters.It increases workmanship and softness. It improves the surface behavior of plaster and plaster.
Genapol PF 80 all kinds of inorganic binders and filling materials anionic, cationic, nonionic surfactants.It is compatible with emulsion powders and cellulose group products.
Product group:  EO/PO block copolymer
Active content: 100%
Appearance: white wax
pH value: 7
Solubility: 1% in water: clear solution
Viscosity: approx. 900 - 1500 mPas
Melting point: approx. 58 °C
Flash point: > 250 °C
HLB value: approx. 16
Genapol® PF 80 Powder is a low-foaming, nonionic surfactant for the chemical industry. This white powder can be used in combination with other nonionic, anionic and cationic surfactants. Genapol® PF 80 powder is resistant to water hardness salts and to acids and alkalis in the concentrations normally used. This product has good wetting and dispersing action coupled with low foaming tendency.
Genapol® PF 80 powder is used as a low-foaming surfactant with very good dispersing action in detergent and cleaning agent powders. These can be produced simply by mixing the powder components. Genapol® PF 80 powder is also used as a low-foaming emulsifier in emulsion polymerization and as a dispersing agent for pigment pastes and preparations.
Genapol PF 80 powder has good wetting and dispersing action coupled with low foaming tendency.
Genapol PF 80 powder is used as a low-foaming surfactant with very good dispersing action in detergentand cleaning agent powders. These can be produced simply by mixing the powder components.
Genapol PF 80 powder is also used as a low-foamingemulsifier in emulsion polymerization and as a dispersing agent for pigment pastes and preparations.
Other applications include reactions in the chemical industry.
A series of propylene oxide (PO)-ethylene oxide (EO) block copolymers with differentEO/PO ratios and molecular weights have been prepared and tested for their demulsification potency in breaking synthetic water-in-benzene emulsions stabilized by asphaltenes. Their partition coefficients between benzene and water were determined by means of UV absorption. NMR spectroscopic analysis was used for determining the actualPO/EO ratios of these block copolymers. The effects of hydrophilic-lipophilic balance (HLB) and molecular weight of the prepared surfactants on their demulsification efficiency were investigated. It was found that the demulsification efficiency is directly proportional to both HLB and molecular weight.Eine Reihe von Propylenoxid (PO)-Ethylenoxid (EO) Blockcopolymeren mit verschiedenenEO/PO-Verhltnissen und Molekulargewichten wurden hergestellt und auf ihre Effizienz bezglich des Brechens von durch Asphalt stabilisierten synthetischen Wasser/Benzol-Emulsionen untersucht. Ihre Verteilungskoeffizienten zwischen Benzol und Wasser wurden mittels UV-Spektroskopie ermittelt. DasPO/EO-Verhltnis wurde NMR-spektroskopisch bestimmt. Die Effekte von Hydrophilie-Lipophilie-Gleichgewicht (HLB) und Molekulargewicht auf die Effizienz der Wirkung wurden untersucht. Das Emulsionsbrechungsvermgen ist direkt proportional zu HLB und indirekt proportional zum Molekulargewicht.
Product properties:
low VOC
free of alkylphenol ethoxylates (APEO)
readily biodegradable
hazard label free
FDA approved
Performance in emulsion polymerization:
maintains low viscosity of polymer emulsion at different shear rates
enhanced electrolyte stability
improved shelf life (high freeze thaw stability)
similar polymerization results to APEOs
In the discussion of surfactants, chemists often focus exclusively on the surfactant molecules and/or their relationship with the chemical(s) with which they react. Before we start that dialogue, briefly consider the surfactants’ solvent: water. If water were not so abundant, we would marvel at its unique properties. Although only 18 g/mole, the temperature range at which water is in the liquid state is much broader and much higher than would normally be expected. This phenomenon is of course due to hydrogen bonding illustrated in Figure 1. If one thinks of the crystal structure of a diamond with each tetrahedral carbon bonded to another, one can imagine why this macro-molecule is so hard; however, extremely pure water has a similar structure to a diamond since each molecule is connected to another through a similar tetrahedral matrix, this time held together by hydrogen bonding. Although not as strong as a covalent bond, this hydrogen bonding gives water its large liquid temperature range and cause it to be, in its pure form, a non-conducting liquid.
A nonionic surfactant is a type of surfactant that does not carry a charge on its hydrophilic head group and is therefore milder in nature. Due to the mildness associated with nonionic surfactants, they are commonly used throughout the home and personal care markets, as well as the agrochemical industry.
The nonionic surfactants are less likely to cause skin irritation, but this is associated with a less potent cleaning ability. Most cleaning products blend anionic and nonionic surfactants to balance cleaning potential with the risk of skin irritation.
Genapol® PF 80 Powder is a low-foaming, nonionic surfactant for the chemical industry. This white powder can be used in combination with other nonionic, anionic and cationic surfactants. Genapol® PF 80 powder is resistant to water hardness salts and to acids and alkalis in the concentrations normally used. This product has good wetting and dispersing action coupled with low foaming tendency.
Genapol® PF 80 powder is used as a low-foaming surfactant with very good dispersing action in detergent and cleaning agent powders. These can be produced simply by mixing the powder components. Genapol® PF 80 powder is also used as a low-foaming emulsifier in emulsion polymerization and as a dispersing agent for pigment pastes and preparations.