ACUSOL 820
ACUSOL 820
CAS: 75760-37-1
SYNONYMS: ACUSOL 820 ( % 30); ACUSOL 820; 75760-37-1; Acrylic/Acrylate Ester Copolymer Anyonik akrilik polimer; ACUSOL, 820; acusol, 820; Acusol, 820; Acusol 820; ACUSOL820; acuol820; acusol820; acusol 820; akrilik, ester, kopolimer, anyonik, akrilik polimer; ACRYLIC ESTER COPOLYMER ANIONIC, ACRYLIC ESTER; 75760-37-1; 75760,37,1; 75760371; ACUSOL 820 30%; ACUSOL,820,30%; ; Acrylic/Acrylate Ester Copolymer; 75760-37-1; acrylates/steareth-30 methacrylate copolymer; ACRYLATES/STEARETH-30 METHACRYLATE COPOLYMER; ACRYLATES,/, STEARETH, -, 30, METHACRYLATE, COPOLYMER; akrilatlar / steareth-30 metakrilat kopolimeri; AKRLTLER / ÇELK-30 METHACRYLATE COPOLYMER; AKRLTLER, /, STEARETH, -, 30, METHACRYLATE, Copolimer; C11D 1/83; 93308505.2; ACSOL, 820; ACUSL 820; T 0012/81; T 0424/86; T 0666/89; T 0012/90; T 0562/90; T 0247/91; T 0658/91; T 0653/93; T 0401/94; T 0373/95; T 0714/00; ACUSOL(TM) 820 POLYMER; 85305-38-0; -3-(4-fluorophenoxy)-2-hydroxy-2-methyl-N-(4-nitro-deriv.; ACUSOL 820 ( % 30); ACUSOL 820; 75760-37-1; Acrylic/Acrylate Ester Copolymer Anyonik akrilik polimer; ACUSOL, 820; acusol, 820; Acusol, 820; Acusol 820; ACUSOL820; acuol820; acusol820; acusol 820; akrilik, ester, kopolimer, anyonik, akrilik polimer; ACRYLIC ESTER COPOLYMER ANIONIC, ACRYLIC ESTER; 75760-37-1; 75760,37,1; 75760371; ACUSOL 820 30%; ACUSOL,820,30%; ; Acrylic/Acrylate Ester Copolymer; 75760-37-1; acrylates/steareth-30 methacrylate copolymer; ACRYLATES/STEARETH-30 METHACRYLATE COPOLYMER; ACRYLATES,/, STEARETH, -, 30, METHACRYLATE, COPOLYMER; akrilatlar / steareth-30 metakrilat kopolimeri; AKRLTLER / ÇELK-30 METHACRYLATE COPOLYMER; AKRLTLER, /, STEARETH, -, 30, METHACRYLATE, Copolimer; C11D 1/83; 93308505.2; ACSOL, 820; ACUSL 820; T 0012/81; T 0424/86; T 0666/89; T 0012/90; T 0562/90; T 0247/91; T 0658/91; T 0653/93; T 0401/94; T 0373/95; T 0714/00; ACUSOL(TM) 820 POLYMER; 85305-38-0; -3-(4-fluorophenoxy)-2-hydroxy-2-methyl-N-(4-nitro-deriv.; ACUSOL 820 ( % 30); ACUSOL 820; 75760-37-1; Acrylic/Acrylate Ester Copolymer Anyonik akrilik polimer; ACUSOL, 820; acusol, 820; Acusol, 820; Acusol 820; ACUSOL820; acuol820; acusol820; acusol 820; akrilik, ester, kopolimer, anyonik, akrilik polimer; ACRYLIC ESTER COPOLYMER ANIONIC, ACRYLIC ESTER; 75760-37-1; 75760,37,1; 75760371; ACUSOL 820 30%; ACUSOL,820,30%; ; Acrylic/Acrylate Ester Copolymer; 75760-37-1; acrylates/steareth-30 methacrylate copolymer; ACRYLATES/STEARETH-30 METHACRYLATE COPOLYMER; ACRYLATES,/, STEARETH, -, 30, METHACRYLATE, COPOLYMER; akrilatlar / steareth-30 metakrilat kopolimeri; AKRLTLER / ÇELK-30 METHACRYLATE COPOLYMER; AKRLTLER, /, STEARETH, -, 30, METHACRYLATE, Copolimer; C11D 1/83; 93308505.2; ACSOL, 820; ACUSL 820; T 0012/81; T 0424/86; T 0666/89; T 0012/90; T 0562/90; T 0247/91; T 0658/91; T 0653/93; T 0401/94; T 0373/95; T 0714/00; ACUSOL(TM) 820 POLYMER; 85305-38-0; -3-(4-fluorophenoxy)-2-hydroxy-2-methyl-N-(4-nitro-deriv.; ACUSOL 820 ( % 30); ACUSOL 820; 75760-37-1; Acrylic/Acrylate Ester Copolymer Anyonik akrilik polimer; ACUSOL, 820; acusol, 820; Acusol, 820; Acusol 820; ACUSOL820; acuol820; acusol820; acusol 820; akrilik, ester, kopolimer, anyonik, akrilik polimer; ACRYLIC ESTER COPOLYMER ANIONIC, ACRYLIC ESTER; 75760-37-1; 75760,37,1; 75760371; ACUSOL 820 30%; ACUSOL,820,30%; ; Acrylic/Acrylate Ester Copolymer; 75760-37-1; acrylates/steareth-30 methacrylate copolymer; ACRYLATES/STEARETH-30 METHACRYLATE COPOLYMER; ACRYLATES,/, STEARETH, -, 30, METHACRYLATE, COPOLYMER; akrilatlar / steareth-30 metakrilat kopolimeri; AKRLTLER / ÇELK-30 METHACRYLATE COPOLYMER; AKRLTLER, /, STEARETH, -, 30, METHACRYLATE, Copolimer; C11D 1/83; 93308505.2; ACSOL, 820; ACUSL 820; T 0012/81; T 0424/86; T 0666/89; T 0012/90; T 0562/90; T 0247/91; T 0658/91; T 0653/93; T 0401/94; T 0373/95; T 0714/00; ACUSOL(TM) 820 POLYMER; 85305-38-0; -3-(4-fluorophenoxy)-2-hydroxy-2-methyl-N-(4-nitro-deriv.; ACUSOL 820 ( % 30); ACUSOL 820; 75760-37-1; Acrylic/Acrylate Ester Copolymer Anyonik akrilik polimer; ACUSOL, 820; acusol, 820; Acusol, 820; Acusol 820; ACUSOL820; acuol820; acusol820; acusol 820; akrilik, ester, kopolimer, anyonik, akrilik polimer; ACRYLIC ESTER COPOLYMER ANIONIC, ACRYLIC ESTER; 75760-37-1; 75760,37,1; 75760371; ACUSOL 820 30%; ACUSOL,820,30%; ; Acrylic/Acrylate Ester Copolymer; 75760-37-1; acrylates/steareth-30 methacrylate copolymer; ACRYLATES/STEARETH-30 METHACRYLATE COPOLYMER; ACRYLATES,/, STEARETH, -, 30, METHACRYLATE, COPOLYMER; akrilatlar / steareth-30 metakrilat kopolimeri; AKRLTLER / ÇELK-30 METHACRYLATE COPOLYMER; AKRLTLER, /, STEARETH, -, 30, METHACRYLATE, Copolimer; C11D 1/83; 93308505.2; ACSOL, 820; ACUSL 820; T 0012/81; T 0424/86; T 0666/89; T 0012/90; T 0562/90; T 0247/91; T 0658/91; T 0653/93; T 0401/94; T 0373/95; T 0714/00; ACUSOL(TM) 820 POLYMER; 85305-38-0; -3-(4-fluorophenoxy)-2-hydroxy-2-methyl-N-(4-nitro-deriv.; Emulsion cleaners; Glass cleaners; Hand dishwash liquid detergents; Hard surface and floor cleaners; Liquid abrasive cleaners; Liquid laundry detergents; Oven cleaners; Paint strippers; Waterless cleaners; White-wall tire cleaners; Emülsiyon temizleyiciler; Cam temizleyiciler; El bulak deterjan sv deterjanlar; Sert yüzey ve zemin temizleyicileri; Sv zmpara temizleyicileri; Sv çamar deterjanlar; Frn temizleyicileri; Boya syrclar; Susuz temizleyiciler; Beyaz duvarl lastik temizleyiciler
Anyonik akrilik polimer. Nötralizasyon gereklidir. Genel temizlik, bulak deterjan, sv çamar deterjan gibi genel amaçl ürünlerde kullanlabilir. Kullanm pH 7-9. Kullanm oran: %3-4
Kullanld Sektörler
DETERJANKullanld Ürünler
Çamar Makinesi DeterjanGenel TemizlikSv SabunYa SökücüKullanld Formüller
ÇAMAIR DETERJANI-SIVI/ SYAHLAR ÇAMAIR DETERJANI-SIVI/RENKL ÇAMAIRLAR 2in 1-SUPER YAYILIMGENEL TEMZLK-KIVAMLIGENEL YÜZEY TEMZLEYC OPAK-EKOLOJIKHALI AMPUANI-ELDE OPAK& LEKE ÇIKARTICIHALI AMPUANI-ELDE OPAK& LEKE ÇIKARTICI&YUMUATICIMNERALL SIVI OVMASIVI KREM DETERJAN-CIFKategori
Application
Cleaning Products
Cleaners
Abrasives – Liquid
Thickener
Floors – Liquid
Thickener
Hard surfaces – Liquid
Thickener
No water – Liquid
Thickener
Tires – Liquid
Thickener
Woven – Liquid
Thickener
Detergent
For clothes – Liquid
Thickener
To dishes – Liquid
Thickener
Glass cleaner
Liquid
Thickener
Paints and Coatings
Ink remover
Liquid
Thickener
Details
Product type
Acrylic polymer
Physical form
Liquid
Ionic characteristic
Anionic
Concentration %
29,5
30,5
pH
3,0
CAS-Nr. 75760-37-1
Bezeichnung:
Englisch Name: ACUSOL 820
Synonyma:
ACUSOL 820
CBNumber: CB91481474
Summenformel:
Molgewicht: 0
MOL-Datei: Mol file
ACUSOL 820 Chemische Eigenschaften,Einsatz,Produktion Methoden
ACUSOL 820 Upstream-Materialien And Downstream Produkte
Upstream-Materialien
Downstream Produkte
ACUSOL 820 Rheology Modifier and Stabilizer
ACUSOLTM 820 Rheology Modifier and StabilizerDescription ACUSOL 820 is a Hydrophobically modified Alkali Soluble acrylic polymer Emulsion (HASE) with unusually high aqueous thickening and stabilising efficiency. When neutralised to a pH above 7 by adding alkalis, ACUSOL 820 thickens instantly. The instantaneous effect on viscosity and easy incorporation of ACUSOL 820 into alkaline cleaner formulations offer savings in valuable production time that cannot be matched by carbomer or cellulosic thickeners, requiring predissolution and elimination of lumps. Working by association, ACUSOL 820 can also thicken solutions containing high levels of surfactants at low pH. This unique performance is achieved by acidifying a neutralised surfactant-containing formulation with a dilute organic or mineral acid. Recommended Applications ACUSOL 820 thickener is highly cost-effective for the following applications: Emulsion cleaners Glass cleaners Hand dishwash liquid detergents Hard surface and floor cleaners Liquid abrasive cleaners Liquid laundry detergents Oven cleaners Paint strippers Waterless cleaners White-wall tire cleaners Formulation Guidelines ACUSOL 820 thickener is compatible with surfactants, solvents, oils, salts and other ingredients commonly found in detergent and cleaner products. Formulators of detergents and cleaners will have no difficulty in discovering the best way to incorporate ACUSOL 820 into their own specific products. FeaturesBenefitsAnionic Can be thickened instantly with any alkali. Compatible with both non-ionic and anionic surfactants, builders and fillers. Liquid Supplied as a low viscosity liquid emulsion, it is very easy to handle. No predissolution, elimination of lumps or warming required. Associative nature Association may occur with other formulation components giving enhanced viscosity and stability. Rheology Gives pseudoplastic (shear thinning) rheology, similar to cellulosics but maintains higher viscosity for higher shear rates. Emulsion technology Water based polymerization. No residual solvents. No residual organic initiators. Instant neutralization Permits continuous manufacturing process through in-line static mixers. Gel appearance Gives clear gels or solutions. Microbial resistance Being a synthetic polymer, it is inherently resistant to microbes and enzymes that can degrade cellulosic thickeners, leading to loss of viscosity. Salt tolerance Compatible with high levels of salts and electrolytes commonly used in household and institutional formulations.
General Mixing ProcedureOperating flexibility is provided by the physical characteristics of the product (low viscosity liquid before neutralisation), and its high thickening efficiency allows varying operating procedures. The following mixing procedure meets most formulating needs: 1. Introduce ACUSOL 820 into the formulation water. This should provide at least a threefold dilution of the polymer. 2. Add the nonionic surfactants (if any). 3. Add the anionic surfactants (if any) – low pH first. * 4. Add builders, fillers, particulates. 5. Add dyes, then perfume. 6. Neutralize with the chosen alkali. * In the case of strongly acidic components, such as sulphonic acids, it is preferable to disperse this component in the system and partially neutralize (e.g.- to pH about 4-5) prior to addition of the polymer. Rapid Mixing TechniqueACUSOL 820 undergoes instantaneous thickening when a base is added. An in-line mixing technique using a static mixer along with a simple pump affords a convenient, rapid means of producing thickened solutions and gels. The solutions prepared by this technique are free from air bubbles. For example, pumping solutions of ACUSOL 820 (4% polymer solids) and sodium hydroxide (0.74%) at equal rates through a static mixer gave 115 kg/hr of a clear foam-free gel (Brookfield viscosity 2 x 106 mPa s at 0.5 rpm) containing 2% ACUSOL 820 solids. A small laboratory pump run at maximum speed gave the same output rate as in pumping deionized water. Although this example used only two feed streams, more feeds could be combined, depending on the type of formulation and the compatibility of the ingredients (see below). Performance Properties Thickening EfficiencyACUSOL 820 thickener is a low viscosity dispersion that becomes a highly viscous clear solution when neutralized with alkali. Figure 2 shows the pH profile of sodium hydroxide neutralized ACUSOL 820 where a stable viscosity plateau is observed, and viscosity drops at pH values below 7.5 and above 12.5. This pH/viscosity profile may change in the presence of surfactants (see Associative Nature).
Figure 3 shows the thickening performance at various Brookfield rotational speeds as a function of the polymer concentration. Figure 4 compares its efficiency with that of a cellulosic and a carbomer thickener, demonstrating its pH tolerance. Besides sodium hydroxide, other bases, such as ammonia, soda ash (Na2CO3) and TEA, can be used as neutralizing agents.
Effect of Temperature on ViscosityAs with most formulations, products thickened with ACUSOL 820 will generally show a drop in viscosity with increasing temperature (Figure 5). This effect, which is common to most thickeners, is reversible with a decrease in temperature. Effect of Shear Rate on ViscosityAs shown in the graph below (Figure 6) the rheology of ACUSOL 820 is extremely pseudoplastic (shear thinning). Under good mixing conditions, ACUSOL 820 thickens instantly upon adding a base and thereby allows rapid preparation of solutions and products. Viscosity profiles are very similar, irrespective of the base employed. No pre-wetting, high shear mixing, and long soak times, often required for other thickeners, are needed to dissolve the un-neutralized polymer. The aqueous neutralized solutions are clear, and they show short rheology as well as being shear thinning. Consequently, the solutions are very viscous at low shear rates, as shown in Figure 6.
Associative NatureACUSOL 820 polymer has long hydrophobic chains that can associate with other hydrophobes present in the formulation (e.g. surfactants, particles etc.). This feature can enhance thickening in the case of low pH formulations, where polymer swelling is limited. The synergistic effect depends on the surfactant concentration: maximum viscosity can be obtained at an optimum concentration. With sodium lauryl sulphate (SLS), for example, the maximum occurs when the ratio of the surfactant to ACUSOL 820 solids level reaches 40% (i.e. a ratio of 0.4:l ). Figure 7 illustrates the synergistic effect of ACUSOL 820 in the presence of SLS. In this graph, the polymer concentration required to obtain a given viscosity over a range of surfactant concentrations is shown. For ACUSOL 820, the polymer performance remains good through a wide range of surfactant concentrations, whereas steadily increasing levels of a non-associative polymer are required to maintain a given viscosity.
Mixture with Bentonite ClaysThe addition of low cost bentonite clays appreciably increases the thickening efficiency of ACUSOL 820. Free-standing gels can be obtained by combining appropriate levels of neutralized thickener with bentonite clays (Figure 8). Compatibility with InorganicsACUSOL 820 can be used even in the presence of relatively high levels of inorganic salts, such as sodium chloride. Efficacy is reduced, but the polymer remains capable of thickening concentrations of salt even at a level of several percent. This is illustrated in Figure 9.
Preparation of Emulsions and DispersionsNeutralized ACUSOL 820 thickener can also be used to make oil-in-water emulsions of organic liquids, such as mineral oil, methylene chloride or kerosene, and to suspend fillers and pigments, such as calcium carbonate, silicate clays and titanium dioxide in water. ACUSOL 820 may be useful in thickening aqueous waste materials and absorbing spills of hazardous wastes as well as in removing water from water-immiscible oils and hydrocarbon solvents. Storage/HandlingKeep from freezing. This emulsion product as supplied will irreversibly coagulate upon freezing. Avoid high shear pumps when handling this product. Material Safety Data Sheets MSDS are available for all Rohm and Haas products. These sheets contain pertinent information that you may need to protect your employees and customers against any known health or safety hazards associated with our products. We recommend that you obtain copies of the MSDS from your Rohm and Haas technical representative, or from the sales office nearest to you, before using our products in your facilities. We also suggest that you contact your suppliers of other materials recommended for use with our products for appropriate health and safety precautions before using them. To obtain samples, technical assistance, a Material Safety Data Sheet (MSDS) or to have a technical representative call for an appointment, contact the nearest Rohm and Haas branch office
Packing
Plastic packaging with 50kg, 200kg
Container with 1000kg
more details
please consult our sales sector department
Acusol 820
Description
Acusol 820 is a hydrophobically modified Alkali Soluble acrylic polymer emulsion with unusually high aqueous thickening and stabilizing efficiency. When neutralized to a ph above 7 ACUSOL 820 thickens instantly.This characteristic has led to its incorporation into alkaline cleaner formulations such as glass and emulsion cleaners, hand dishwash liquid detergents, hard surface and floor cleaners, liquid abrasive cleaners, liquid laundry detergents, oven cleaner, pain strippers waterless cleaners and white-wall tire cleaners.
Chemical Properties
ACUSOLTM 820
Rheology Modifier and Stabilizer
Description
ACUSOL 820 is a Hydrophobically modified Alkali Soluble acrylic polymer Emulsion (HASE) with unusually highaqueous thickening and stabilising efficiency. When neutralised to a pH above 7 by adding alkalis, ACUSOL 820thickens instantly. The instantaneous effect on viscosity and easy incorporation of ACUSOL 820 into alkalinecleaner formulations offer savings in valuable production time that cannot be matched by carbomer or cellulosicthickeners, requiring predissolution and elimination of lumps.Working by association, ACUSOL 820 can also thicken solutions containing high levels of surfactants at low pH.This unique performance is achieved by acidifying a neutralised surfactant-containing formulation with a diluteorganic or mineral acid.
Recommended Applications
ACUSOL 820 thickener is highly cost-effective for the following applications:Emulsion cleanersGlass cleanersHand dishwash liquid detergentsHard surface and floor cleanersLiquid abrasive cleanersLiquid laundry detergentsOven cleanersPaint strippersWaterless cleanersWhite-wall tire cleaners
Formulation Guidelines
ACUSOL 820 thickener is compatible with surfactants, solvents, oils, salts and other ingredients commonly foundin detergent and cleaner products. Formulators of detergents and cleaners will have no difficulty in discovering thebest way to incorporate ACUSOL 820 into their own specific products
Product Name: ACUSOL 820 POLYMER
Kvamlatrc
ACUSOL 820 Rheology Modifier/Stabilizer is a Hydrophobically modified Alkali
Soluble acrylic polymer Emulsion (HASE) with unusually high aqueous thickening and
stabilising efficiency. When neutralized to a pH above 7 by adding alkalis, ACUSOL 820
thickens instantly. The instantaneous effect on viscosity and easy incorporation of
ACUSOL 820 into alkaline cleaner formulations offer savings in valuable production time
that cannot be matched by carbomer or cellulosic thickeners, requiring predissolution and
elimination of lumps.
Working by association, ACUSOL 820 can also thicken solutions containing high levels of
surfactants at low pH. This unique performance is achieved by acidifying a neutralized
surfactant-containing formulation with a dilute organic or mineral acid.
Features Benefits
Anionic Can be thickened instantly with any alkali. Compatible with both
non-ionic andanionic surfactants, builders and fillers.
Liquid Supplied as a low viscosity liquid emulsion, it is very easy to handle. No
predissolution, elimination of lumps or warming required.
Associative nature Association may occur with other formulation components giving
enhanced viscosity and stability.
Rheology Gives pseudoplastic (shear thinning) rheology, similar to cellulosics but
maintains higher viscosity for higher shear rates.
Emulsion technology Water-based polymerization. No residual solvents. No residual
organic initiators.
Instant neutralization Permits continuous manufacturing process through in-line static mixers.
Gel appearance Gives clear gels or solutions.
Microbial resistance Being a synthetic polymer, ACUSOL 820 Rheology Modifier/Stabilizer
is inherently resistant to microbes and enzymes that can degrade
cellulosic thickeners, leading to loss of viscosity.
Salt tolerance Compatible with high levels of salts and electrolytes commonly used in
household and institutional formulations.
Description
Technical Data Sheet
ACUSOLTM 820 Rheology Modifier/Stabilizer
ACUSOL 820 Rheology Modifier/Stabilizer is a Hydrophobically modified Alkali
Soluble acrylic polymer Emulsion (HASE) with unusually high aqueous thickening and
stabilising efficiency. When neutralized to a pH above 7 by adding alkalis, ACUSOL 820
thickens instantly. The instantaneous effect on viscosity and easy incorporation of
ACUSOL 820 into alkaline cleaner formulations offer savings in valuable production time
that cannot be matched by carbomer or cellulosic thickeners, requiring predissolution and
elimination of lumps.
Working by association, ACUSOL 820 can also thicken solutions containing high levels of
surfactants at low pH. This unique performance is achieved by acidifying a neutralized
surfactant-containing formulation with a dilute organic or mineral acid.
Features Benefits
Anionic Can be thickened instantly with any alkali. Compatible with both
non-ionic andanionic surfactants, builders and fillers.
Liquid Supplied as a low viscosity liquid emulsion, it is very easy to handle. No
predissolution, elimination of lumps or warming required.
Associative nature Association may occur with other formulation components giving
enhanced viscosity and stability.
Rheology Gives pseudoplastic (shear thinning) rheology, similar to cellulosics but
maintains higher viscosity for higher shear rates.
Emulsion technology Water-based polymerization. No residual solvents. No residual
organic initiators.
Instant neutralization Permits continuous manufacturing process through in-line static mixers.
Gel appearance Gives clear gels or solutions.
Microbial resistance Being a synthetic polymer, ACUSOL 820 Rheology Modifier/Stabilizer
is inherently resistant to microbes and enzymes that can degrade
cellulosic thickeners, leading to loss of viscosity.
Salt tolerance Compatible with high levels of salts and electrolytes commonly used in
household and institutional formulations.
Description
Applications
Physical Properties
Features and
Benefits
UNRESTRICTED -May be shared with anyone
820 Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
The following are typical properties of ACUSOLTM 820 Rheology Modifier/Stabilizer;
they are not to be considered product specifications.
Appearance: ……………………………………… Off white milky emulson
Polymer type: ……………………………….. Associative anionic acrylic
Solids (%): ……………………………………………………………………… 30
pH (as supplied): ………………………………………………………………2.7
Density: ………………………………………………………………………..1.06
Viscosity (as supplied): ………………………15 Brookfield mPa•s/cPs
Acid value: …………………….11.7 (mls. N/10 NaOH per g product)
ACUSOLTM 820 Rheology Modifier/Stabilizer is highly cost-effective for the following
applications:
ACUSOLTM 820 Rheology Modifier/Stabilizer is compatible with surfactants, solvents, oils,
salts and other ingredients commonly found in detergent and cleaner products. Formulators
of detergents and cleaners will have no difficulty in discovering the best way to incorporate
ACUSOL 820 into their own specific products.
General Mixing Procedure
Operating flexibility is provided by the physical characteristics of the product (low viscosity
liquid before neutralization), and its high thickening efficiency allows varying operating
procedures. The following mixing procedure meets most formulating needs:
1. Introduce ACUSOL 820 polymer into the formulation water.
This should provide at least a threefold dilution of the polymer.
2. Add the nonionic surfactants (if any).
3. Add the anionic surfactants (if any)-low pH first.*
4. Add builders, fillers, particulates.
5. Add dyes, then perfume.
6. Neutralize with the chosen alkali.
* In the case of strongly acidic components, such as sulphonic acids, it is preferable to disperse this component in the
system and partially neutralize (e.g.- to pH about 4-5) prior to addition of the polymer.
Rapid Mixing Technique
ACUSOLTM 820 polymer undergoes instantaneous thickening when a base is added. An
in-line mixing technique using a static mixer along with a simple pump affords a
convenient, rapid means of producing thickened solutions and gels. The solutions
prepared by this technique are free from air bubbles.
For example, pumping solutions of ACUSOL 820 (4% polymer solids) and sodium
hydroxide (0.74%) at equal rates through a static mixer gave 115 kg/hr of a clear foam-free
gel (Brookfield viscosity 2 x 106
mPa.
s at 0.5 rpm) containing 2% ACUSOL 820 solids. A
small laboratory pump run at maximum speed gave the same output rate as in pumping
deionized water. Although this example used only two feed streams, more feeds could be
combined, depending on the type of formulation and the compatibility of the ingredients
(see Fig. 1, next page).
Recommended
Applications
Formulating Tips
• Emulsion cleaners
• Glass cleaners
• Hand dishwash liquid detergents
• Hard surface and floor cleaners
• Liquid abrasive cleaners
• Liquid laundry detergents
• Oven cleaners
• Paint strippers
• Waterless cleaners
• White-wall tire cleaners
UNRESTRICTED -May be shared with anyone
820 Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
Thickening Efficiency
ACUSOLTM 820 Rheology Modifier/Stabilizer is a low viscosity dispersion that
becomes a highly viscous clear solution when neutralized with alkali. Figure 2 shows the
pH profile of sodium hydroxide neutralized ACUSOL 820 where a stable viscosity plateau
is observed, and viscosity drops at pH values below 7.5 and above 12.5. This pH/viscosity
profile may change in the presence of surfactants (see “Associative Nature” under
Features and Benefits).
Performance
Properties
UNRESTRICTED -May be shared with anyone
820 Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
Figure 1
Schematic Representation of an In-Line Mixer
Thickened formulation
water, surfactants,
caustic media
pH-sensitive
components
ACUSOLTM 820
Rheology Modifier/Stabilizer
Figure 2
Viscosity / pH Response of ACUSOLTM 820
Rheology Modifier/Stabilizer
at 0.8% active polymer content
6 7 8 9 10 11 12 13
8
6
4
2
0
pH
Brookfield LV viscosity 12 rpms
Figure 3 shows the thickening performance at various Brookfield rotational speeds as a
function of the polymer concentration.
Figure 4 compares its efficiency with that of a cellulosic and a carbomer thickener,
demonstrating its pH tolerance. Besides sodium hydroxide, other bases, such as ammonia,
soda ash (Na2
CO3
) and TEA, can be used as neutralizing agents.
Performance
Properties
Thickening Efficiency (cont’d)
Page 4 of 9
UNRESTRICTED -May be shared with anyone
Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
Figure 3
Viscosity of ACUSOLTM 820
Rheology Modifier/Stabilizer Solutions
as a function of polymer concentration
6 rpm
12 rpm
0.6 rpm
1,000
100
10
1
0 0.5 1 1.5
% active polymer
Brookfield LV viscosity (in ‘000s)
Figure 4
Effect of Alkali Concentration on Viscosity
(1.25% ACUSOL 820 Rheology Modifier/Stabilizer AI)
1 2 3 4 5 6 7 8 9 10
1,000
100
10
1
0
% NaOH
Brookfield LV viscosity 12 rpm (in ‘000s)
ACUSOL 820
carbomer
cmc
Effect of Temperature on Viscosity
As with most formulations, products thickened with ACUSOL 820 Rheology Modifier/Stabilizer
will generally show a drop in viscosity with increasing temperature (Figure 5).
This effect, which is common to most thickeners, is reversible with a decrease in temperature.
Effect of Shear Rate on Viscosity
The rheology of ACUSOL 820 polymer is extremely pseudoplastic (shear thinning).
Under good mixing conditions, ACUSOL 820 thickens instantly upon adding a base and
thereby allows rapid preparation of solutions and products. Viscosity profiles are very
similar, irrespective of the base employed. No pre-wetting, high-shear mixing, and long
soak times, often required for other thickeners, are needed to dissolve the un-neutralized
polymer. The aqueous neutralized solutions are clear, and show short rheology as well as
being shear thinning. Consequently, the solutions are very viscous at low shear rates, as
shown in Figure 6.
Performance
Properties (cont’d)
UNRESTRICTED -May be shared with anyone
Brookfield LV viscosity 12 rpm
Associative Nature
ACUSOL 820 Rheology Modifier/Stabilizer has long hydrophobic chains that can
associate with other hydrophobes present in the formulation (e.g. surfactants, particles
etc.). This feature can enhance thickening in the case of low pH formulations, where
polymer swelling is limited. The synergistic effect depends on the surfactant concentration:
maximum viscosity can be obtained at an optimum concentration. With sodium lauryl
sulphate (SLS), for example, the maximum occurs when the ratio of the surfactant to
ACUSOL 820 solids level reaches 40% (i.e. a ratio of 0.4:1). Figure 7 illustrates the
synergistic effect of ACUSOL 820 in the presence of SLS. In this graph, the polymer
concentration required to obtain a given viscosity over a range of surfactant concentrations
is shown. For ACUSOL 820, the polymer performance remains good through a wide range
of surfactant concentrations, whereas steadily increasing levels of a non-associative
polymer are required to maintain a given viscosity.
Performance
Properties
Effect of Shear Rate (cont’d)
UNRESTRICTED -May be shared with anyone
or an affiliated company of
ACUSOL 820 Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
Figure 6
Viscosity vs Shear Rate
for an 0.8% aqueous solution of the sodium salt
of ACUSOL 820 Rheology Modifier/Stabilizer
100,000
10,000
1,000
100
0.1 1 10 100 1000
Shear rate in sec-1
Viscosity mPa.s
Mixture with Bentonite Clays
The addition of low cost bentonite clays appreciably increases the thickening efficiency of
ACUSOL 820 Rheology Modifier/Stabilizer. Freestanding gels can be obtained by
combining appropriate levels of neutralized thickener with bentonite clays
Performance
Properties
Associative Nature (cont’d)
Page 7 of 9
UNRESTRICTED -May be shared with anyone Trademark or an affiliated company of Dow
ACUSOL 820 Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
Non-associative polymer
ACUSOL 820
% Polymer (solids)
Figure 8
Synergistic Effect of Bentonite
on ACUSOL 820 Rheology Modifier/Stabilizer
0.2 0.4 0.6 0.8 1
10,000
1,000
100
10
0
x axis = % active ACUSOL 820
Clay:polymer = 4:1
Clay:polymer = 2:1
Polymer
Temperature (ºC)
y axis = Brookfield LV viscosity 12 rpm
Compatibility with Inorganics
ACUSOL 820 Rheology Modifier/Stabilizer can be used even in the presence of
relatively high levels of inorganic salts, such as sodium chloride. Efficacy is reduced, but
the polymer remains capable of thickening concentrations of salt even at a level of several
percent. This is illustrated in Figure 9.
Neutralized ACUSOL 820 Rheology Modifier/Stabilizer can also be used to make oil-in-water
emulsions of organic liquids, such as mineral oil, methylene chloride or kerosene, and to
suspend fillers and pigments, such as calcium carbonate, silicate clays and titanium dioxide in
water. ACUSOL 820 may be useful in thickening aqueous waste materials and absorbing spills
of hazardous wastes as well as in removing water from water-immiscible oils and
hydrocarbon solvents.
Performance
Preparation of
Emulsions and
Dispersions
UNRESTRICTED -May be shared with anY Trademark or an affiliated company of Dow
ACUSOL 820 Rheology Modifier/Stabilizer Form No. 805-00058-0315 PS
% NaCI
% Active polymer
Before using this product, consult the Safety Data Sheet (SDS) for details on product
hazards, recommended handling precautions and product storage.
Avoid high-shear pumps when handling this product.
Store product in tightly closed original container at temperatures recommended on the
product label.
Keep from freezing. This emulsion product as supplied will irreversibly coagulate upon
freezing.
Dispose in accordance with all local, state (provincial) and federal regulations. Empty
containers may contain hazardous residues. This material and its container must be
disposed in a safe and legal manner.
It is the user’s responsibility to verify that treatment and disposal procedures comply with
local, state (provincial) and federal regulations.
Dow has a fundamental concern for all who make, distribute, and use its products, and
for the environment in which we live. This concern is the basis for our product stewardship
philosophy by which we assess the safety, health, and environmental information on our
products and then take appropriate steps to protect employee and public health and our
environment. The success of our product stewardship program rests with each and every
individual involved with Dow products – from the initial concept and research, to
manufacture, use, sale, disposal, and recycle of each product.
Dow strongly encourages its customers to review both their manufacturing processes and
their applications of Dow products from the standpoint of human health and environmental
quality to ensure that Dow products are not used in ways for which they are not intended or
tested. Dow personnel are available to answer your questions and to provide reasonable
technical support. Dow product literature, including Safety Data Sheets (SDS), should be
consulted prior to use of Dow products. Current Safety Data Sheets are available from Dow.
Handling
Precautions
Storage
Recommendation
Disposal
Considerations
Stewardship
Customer Notice
Notice: No freedom from infringement of any patent owned by Dow or others is to be inferred. Because use conditions and
applicable laws may differ from one location to another and may change with time, Customer is responsible for determining
whether products and the information in this document are appropriate for Customer’s use and for ensuring that Customer’s
workplace and disposal practices are in compliance with applicable laws and other government enactments. The product
shown in this literature may not be available for sale and/or available in all geographies where Dow is represented. The
claims made may not have been approved for use in all countries. Dow assumes no obligation or liability for the information
in this document. References to “Dow” or the “Company” mean the Dow legal entity selling the products to Customer unless
otherwise expressly noted. NO WARRANTIES ARE GIVEN; ALL IMPLIED WARRANTIES OF MERCHANTABILITY OR
FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY EXCLUDED.
2.1 Hazard Identification: This product is classified as a HAZARDOUS SUBSTANCE but not as DANGEROUS GOODS according to the classification criteria of [NOHSC: 1088 (2004)] and ADG Code (Australia).
WARNING! MAY CAUSE AN ALLERGIC SKIN REACTION. CAUSES SERIOUS EYE IRRITATION.
Classification: Skin Sens. 1
Hazard Statements (H): H317 – May cause an allergic skin reaction. H319 – Causes serious eye irritation.
Precautionary Statements (P): P103 – Read label before use. P261 – Avoid breathing vapors/spray. P272 – Contaminated work clothing should not be allowed out of the workplace. P280 – Wear protective gloves. P302+P352 – IF ON SKIN: Wash with soap and water. P333+P313 – If skin irritation or a rash occurs: Get medical advice/attention. P305+P351+P338 – IF IN EYES: Rinse continuously with water for several minutes. Remove contact lenses if present and easy to do – continue rinsing. P337+P313 – If eye irritation persists: Get medical
advice/attention. P321 – For specific first aid treatment (see section 4 of this Safety Data Sheet). P501 – Dispose of contents/container to a licensed treatment, storage or disposal facility (TSDF).
Eyes: Overexposure in eyes may cause redness, itching and watering (risk of serious damage to eyes).
Contact may cause serious eye irritation including stinging, watering, redness.
Skin: Prolonged contact with skin may result in bleaching and irritation of skin. The product can cause allergic skin reactions (e.g., rashes, welts, dermatitis) in some sensitive individuals. Symptoms of skin overexposure may include redness, itching, and irritation of affected areas.
4.4 Acute Health Effects: Moderate irritation to eyes. Moderate irritation to skin near affected areas.
No harmful or chronic health effects are expected to occur from a single accidental ingestion. These ingredients may be irritating to skin and mucous membrane of the eye and respiratory system. Overexposure may trigger asthma-like
symptoms in some sensitive individuals. May also induce skin sensitization and respiratory hypersensitivity. Possible allergic dermatitis.
Pre-existing dermatitis, other skin conditions, and disorders of the target organs (eyes, skin) or impaired kidney function may be more susceptible to the effects of this substance.
4.7 Medical Conditions Aggravated by Exposure: Pre-existing dermatitis, other skin conditions, and disorders of the target organs (eyes, skin) or impaired kidney function may be more susceptible to the effects of this substance. HEALTH 1
FLAMMABILITY 0
PHYSICAL HAZARDS 0
PROTECTIVE EQUIPMENT B
EYES SKIN
Will not burn, but decomposition, which may be caused by heat, will release oxygen which will increase the explosive limit range and burning rate of flammable vapors. As a result of combustion and thermal decomposition, oxidation products may form and exposure to such products may result in health hazards
Foam, CO2, Water Fog, Dry Chemical
5.3 Firefighting Procedures: Fight fires as for surrounding materials. Firefighters should wear a MSHA/NIOSH approved or equivalent self-contained breathing apparatus (SCBA) and protective clothing. Fire should be fought from a safe distance. Keep containers cool until well after the fire is out. Cool containers with water spray to prevent pressure build-up, auto-ignition or explosion. Prevent runoff from fire control or
dilution from entering sewers, drains, drinking water supply, or any natural waterway.
Before cleaning any spill or leak, individuals involved in spill cleanup must wear appropriate Personal Protective Equipment.
For small spills (e.g., < 1 gallon (3.8 L)) wear appropriate personal protective equipment (e.g., goggles, gloves). Maximize ventilation (open doors and windows. Remove spilled material with absorbent material and place into appropriate closed container(s) for disposal. Dispose of properly in accordance with local, state and federal regulations. Wash all affected areas and outside of container with plenty of warm water and soap. Remove any contaminated clothing and wash thoroughly before reuse.
For large spills (e.g., ? 1 gallon (3.8 L)), deny entry to all unprotected individuals. Dike and contain spill with inert material (e.g., sand or earth). Transfer liquid to containers for recovery or disposal and solid diking material to separate
containers for proper disposal. Remove contaminated clothing promptly and wash affected skin areas with soap and water. Keep spills and cleaning runoffs out of drains, municipal sewers and open bodies of water.
7.1 Work & Hygiene Practices: Use normal hygiene practices. Avoid direct skin contact. Wash hands thoroughly after using this product and before eating, drinking, or smoking. Good personal hygiene practices, such as washing any skin contact areas and removing
contaminated clothing, are recommended.
7.2 Storage & Handling: Keep away from sources of heat.
7.3 Special Precautions: Follow all instructions on product label. Keep container closed when not in use. Keep this and all chemicals out of reach of children.
8.2 Ventilation & Engineering Controls: General mechanical (e.g., fans) or natural ventilation is sufficient when this product is in use. Use local or general
exhaust ventilation to effectively remove and prevent buildup of vapors or mist generated from the handling of this product. Ensure appropriate decontamination equipment is available (e.g., sink, safety shower, eye-wash station).
8.3 Respiratory Protection: No special respiratory protection is required under typical circumstances of use or handling. In instances where mist or vapors of this product are generated, and respiratory protection is needed, use only
protection authorized by 29 CFR §1910.134, applicable U.S. State regulations, or the Canadian CAS Standard Z94.4-93 and applicable standards of Canadian Provinces, EC member States, or Australia.
8.4 Eye Protection: Avoid eye contact. Use approved safety glasses or goggles. Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).
8.5 Hand Protection: If anticipated that prolonged & repeated skin contact will occur during use of this product, wear latex or rubber gloves for routine industrial use. If necessary, refer to U.S. OSHA 29 CFR §1910.138, the
appropriate standards of Canada, of the EU member states.
8.6 Body Protection: Not required under normal conditions of use. Use appropriate protective equipment (e.g., apron) as
necessary to prevent or reduce exposure if frequent or prolonged contact is expected; refer to appropriate standards of Canada, the EU member states, or U.S. OSHA.
12.1 Environmental Stability: The components of this product will slowly degrade over time into a variety of organic compounds. Specific environmental data available for the components of this product are as follows:
Isopropyl Alcohol: Log KOW = 0.05-0.14. Isopropyl alcohol occurs naturally; it is generated during microbial degradation of plant and animal wastes. When released on land or water, it is apt to volatilize and biodegrade. The estimated half-
life in water is 5.4 days. Isopropyl alcohol is not expected to bioconcentrate.
15.1 SARA Reporting Requirements: This product contains Isopropanol, a substance subject to SARA Title III, section 313 reporting requirements
15.2 SARA Threshold Planning Quantity: There are no specific Threshold Planning Quantities for the components of this product.
15.3 TSCA Inventory Status: The components of this product are listed on the TSCA Inventory or are otherwise exempt.
15.4 CERCLA Reportable Quantity (RQ): NA
15.5 Other Federal Requirements: This material does not contain any hazardous air pollutants. None of the components in this product are listed as priority pollutants under the CWA. None of the components in this product are listed as toxic pollutants under the CWA.
15.6 Other Canadian Regulations: This product has been classified according to the hazard criteria of the CPR and the SDS contains all of the information required by the CPR. The components of this product are listed on the DSL/NDSL. None of the components of this product are listed on the Priorities Substances List.
15.7 State Regulatory Information: No ingredients in this product present in a concentration of 1.0% or greater, are listed on any of the following state criteria lists: California Proposition 65 (CA65), Delaware Air Quality Management List (DE), Florida Toxic Substances List (FL), Massachusetts Hazardous Substances List (MA), Michigan Critical Substances List (MI), Minnesota Hazardous
Substances List (MN), New Jersey Right-to-Know List (NJ), New York Hazardous Substances List (NY), Pennsylvania Right-to-Know List (PA), Washington Permissible Exposures List (WA), Wisconsin Hazardous Substances List (WI).
15.8 Other Requirements: The primary components of this product are not listed in Annex I of EU Directive 67/548/EEC: Risk Phrases (R): 36/38 – Irritating to eyes and skin. Safety Phrases (S): 1/2 -24/25-45 – Keep container locked up and out of reach of children. Avoid contact with skin and eyes. In case of accident or if you feel unwell seek medical advice immediately (show label where possible).
Poisons Schedule Number: None Allocated.
HazChem Code: None
16.1 Other Information: WARNING! MAY CAUSE AN ALLERGIC SKIN REACTION. Read label before use. Avoid breathing vapors/spray. Contaminated work clothing should not be allowed out of the workplace. Wear protective gloves. IF ON SKIN: Wash
with soap and water. If skin irritation or a rash occurs: Get medical advice/attention. For specific first aid treatment (see section 4 of this Safety Data Sheet). KEEP OUT OF REACH OF CHILDREN.