Blue-White M4 Peristaltic Metering Pump User Guide
- June 13, 2024
- Blue-White
Table of Contents
Blue-White M4 Peristaltic Metering Pump User Guide
The Right Tube for Your Application
Selecting a suitable tubing material is important to the success of the FLEXFLO® peristaltic pump in a specific application. Variables that will affect tube performance include: system pressure, output volume, and chemical being dosed.
Tubing Characteristics
Shown below are the three primary application variables that will affect the life of the tube and the tubing characteristics that are affected by these variables. Chemical resistance is not depicted graphically.
Application Variables| Tube Diameter| Material Formulation|
Material Stiffness
---|---|---|---
Discharge Pressure| •| | •
Output Volume| •| |
Chemical| | •|
Materials and Diameters
- The first letter in the tubing designation always indicates the tube’s material.
- The second letter indicates the tube size. Two of the same letters indicate a dual tube assembly.
- The letter “L” at the end of the code indicates a “low pressure” or “softer” version of the tube.
G = Flex-A-Thane®
This polyurethane material can be used with a variety of chemicals including
Oil and Waterbased Polymers, Sodium Hypochlorite, Alum, Ferric Chloride, fuels
and lubricants and many others. Available in a medium stiffness for
applications up to 65 psi.
T = Flex-A-Chem®
This tubing material consists of an outer Norprene jacket with an inner liner
that is virtually unaffected by acids, bases, salts, ketones and alcohols.
Available in a medium stiffness for applications up to 50 psi.
N = Flex-A-Prene®
An excellent material for most water treatment applications. Chemically
resistant to 25% Sodium Hypochlorite, 30% Sulfuric Acid, 30% Fluosilicic Acid,
Ferric Chloride, Alum and many others. Available in a wide stiffness range for
both low and high pressure applications.
Material Designation| Tube Material| Tube Size| Tube Size|
Tube Stiffness| Maximum Pressure Capability| Max Temp
---|---|---|---|---|---|---
| | M2| M3| M4|
Code| Material| Code| ID Inches| Code| PSI
(bar)| PSI (bar)| PSI (bar)| °F (°C)
ND| Flex-A-Prene®| D| 0.075| Medium| 125 (8.6)| 125 (8.6)| NA| 185 (85)
NEE| Flex-A-Prene®| EE| 0.093| Medium| 110 (7.6)| 110 (7.6)| NA| 185 (85)
NGG| Flex-A-Prene®| GG| 0.187| Medium| 110 (7.6)| 110 (7.6)| NA| 185 (85)
NHL| Flex-A-Prene®| HL| 0.250| Medium| 65 (4.5)| 65 (4.5)| 65 (4.5)| 185 (85)
NHHL| Flex-A-Prene®| HHL| 0.250| Medium| 65 (4.5)| 65 (4.5)| 65 (4.5)| 185
(85)
NJ| Flex-A-Prene®| J| 0.312| Hard| NA| 125 (8.6)| 100 (6.9)| 185 (85)
NK| Flex-A-Prene®| K| 0.375| Hard| NA| 125 (8.6)| 80 (5.5)| 185 (85)
NKL| Flex-A-Prene®| KL| 0.375| Soft| NA| 30 (2.1)| 30 (2.1)| 185 (85)
NL| Flex-A-Prene®| L| 0.500| Medium| NA| NA| 50 (3.4)| 185 (85)
NP| Flex-A-Prene®| P| 0.750| Medium| NA| NA| 30 (2.1)| 185 (85)
TH| Flex-A-Chem®| H| 0.250| Medium| 50 (3.4)| 50 (3.4)| 30 (2.1)| 130 (54)
TK| Flex-A-Chem®| K| 0.375| Medium| NA| 50 (3.4)| 30 (2.1)| 130 (54)
GE| Flex-A-Thane®| E| 0.125| Medium| 65 (4.5)| 65 (4.5)| NA| 130 (54)
GG| Flex-A-Thane®| G| 0.187| Medium| 65 (4.5)| 65 (4.5)| NA| 130 (54)
GH| Flex-A-Thane®| H| 0.250| Medium| NA| 65 (4.5)| 65 (4.5)| 130 (54)
GK| Flex-A-Thane®| K| 0.375| Medium| NA| 65 (4.5)| 65 (4.5)| 130 (54)
G2G| Flex-A-Thane®| GG| 0.187| Medium| 65 (4.5)| 65 (4.5)| NA| 130 (54)
Viscosity Effects
The viscosity of your chemical will have an affect on the pump output volume.
- As the viscosity increases, pump output is reduced.
- Long suction lines will reduce the pump output. Use a flooded suction where possible.
- A small inside diameter suction line will reduce output. Use a large ID pipe or tube where possible.
- Pump tube assemblies with ½” pipe thread or ½” ID barb connections have the largest through holes. Use these options when pumping viscous fluids.
Suction Lift Effects
Note that the pump’s output specification is based on laboratory tests with water at 72 degrees Fahrenheit (Sp.gr. = 1.0) and 3 feet of suction lift. When lifting fluids with a Specific Gravity other than water, your output rate will vary. Use the following equation and the graphs below to calculate your pump output.
Fluid Sp.Gr. x Suction Lift Height = the equivalent height in water
Example: The Sp.Gr. of 12.5% Sodium Hypochlorite at 60 degrees F is 1.20. If the required suction lift is 8 feet, the equivalent suction lift using water is 1.20 x 8 = 9.6 feet.
NOTE: All tests performed after approximately 30 minutes tube break-in period. Tested using 72°F water at atmospheric conditions at sea level. Output volume shown with the pump operating at 125 rpm motor speed.
-
Model A2
-
Model A3
-
Model A4
HOW TO USE THIS DATA:
- Select the tube materials that are resistant to the chemical. See the following pages for chemical resistance data.
- Select the tube sizes that meet the system pressure requirement.
- Select the tube with the highest output volume and life expectancy.
Model M2 Pump Tubes and Output Ranges
Tube Material| Tube Size| Max Pressure| Max Temp|
Output Range| Roller Size
---|---|---|---|---|---
Material| Code| PSI (bar)| °F (°C)| ml/Min| Code
Flex-A-Prene®| ND| 125 (8.6)| 185 (85)| 1 – 108| A2-SND-R
Flex-A-Prene®| NEE| 110 (7.6)| 185 (85)| 2.8 – 280| A2-SNGG-R
Flex-A-Prene®| NGG| 110 (7.6)| 185 (85)| 10.8 – 1085| A2-SNGG-R
Flex-A-Prene®| NHL| 65 (4.5)| 185 (85)| 9 – 870| A2-SNGG-R
Flex-A-Chem®| TH| 50 (3.4)| 130 (54)| 7.4 – 740| A2-STH-R
Flex-A-Thane®| GE| 65 (4.5)| 130 (54)| 3 – 253| A2-SGE-R
Flex-A-Thane®| GG| 65 (4.5)| 130 (54)| 6 – 586| A2-SGE-R
Flex-A-Thane®| G2G| 65 (4.5)| 130 (54)| 9.5 – 945| A2-SGE-R
Model M3 Pump Tubes and Output Ranges
Tube Material| Tube Size| Max Pressure| Max Temp|
Output Range| Roller Size
---|---|---|---|---|---
Material| Code| PSI (bar)| °F (°C)| ml/Min| Code
Flex-A-Prene®| ND| 125 (8.6)| 185 (85)| .05 – 133| A3-SND-R
Flex-A-Prene®| NEE| 110 (7.6)| 185 (85)| .12 – 300| A3-SNGG-R
Flex-A-Prene®| NGG| 110 (7.6)| 185 (85)| .48 – 1200| A3-SNGG-R
Flex-A-Prene®| NHL| 65 (4.5)| 185 (85)| .4 – 1097| A3-SNGG-R
Flex-A-Prene®| NJ| 125 (8.6)| 185 (85)| .6 – 1596| A3-SNGG-R
Flex-A-Prene®| NK| 125 (8.6)| 185 (85)| .8 – 2100| A3-SNGG-R
Flex-A-Prene®| NKL| 30 (2.1)| 185 (85)| .8 – 2100| A3-STH-R
Flex-A-Chem®| TH| 50 (3.4)| 130 (54)| .4 – 950| A3-STH-R
Flex-A-Chem®| TK| 50 (3.4)| 130 (54)| .9 – 2220| A3-SNGG-R
Flex-A-Thane®| GE| 65 (4.5)| 130 (54)| .1 – 290| A3-SGE-R
Flex-A-Thane®| GG| 65 (4.5)| 130 (54)| .3 – 637| A3-SGE-R
Flex-A-Thane®| GH| 65 (4.5)| 130 (54)| .6 – 1570| A3-SGE-R
Flex-A-Thane®| GK| 65 (4.5)| 130 (54)| .7 – 1800| A3-SGE-R
Flex-A-Thane®| G2G| 65 (4.5)| 130 (54)| .5 – 1150| A3-SGE-R
Model M4 Pump Tubes and Output Ranges
Tube Material| Tube Size| Max Pressure| Max Temp|
Output Range| Roller Size
---|---|---|---|---|---
Material| Code| PSI (bar)| °F (°C)| ml/Min| Code
Flex-A-Prene®| NH| 125 (8.6)| 185 (85)| .7 – 1800| A4-MNH-R
Flex-A-Prene®| NHL| 65 (4.5)| 185 (85)| .7 – 1800| A4-MNH-R
Flex-A-Prene®| NJ| 100 (6.9)| 185 (85)| 1.1 – 2800| A4-MNH-R
Flex-A-Prene®| NK| 80 (5.5)| 185 (85)| 1.3 – 3200| A4-MNH-R
Flex-A-Prene®| NHH| 100 (6.9)| 185 (85)| 1.4 – 3400| A4-MNH-R
Flex-A-Prene®| NHHL| 65 (4.5)| 185 (85)| 1.4 – 3400| A4-MNH-R
Flex-A-Prene®| NL| 50 (3.4)| 185 (85)| 2.5 – 6300| A4-MNL-R
Flex-A-Prene®| NP| 30 (2.1)| 185 (85)| 4.0 – 10000| A4-MNL-R
Flex-A-Chem®| TK| 30 (2.1)| 130 (54)| 1.1 – 2700| A4-MTH-R
Flex-A-Thane®| GH| 65 (4.5)| 130 (54)| 1.0 – 2500| A4-MGH-R
Flex-A-Thane®| GK| 65 (4.5)| 130 (54)| 1.4 – 3500| A4-MGH-R
Flex-A-Thane®| GKK| 65 (4.5)| 130 (54)| 2.5 – 6300| A4-MGH-R
NOTE: 28 Day Immersions at 73 °F E = ExcellentG = Good F = FairU = Not
Recommended| Flex-A-Prene®| Flex-A-Chem®| Flex-A-Thane®| Chemical, Conc.
% (1)| Flex-A-Prene®| Flex-A-Chem®| Flex-A-Thane®| Chemical, Conc.
% (1)| Flex-A-Prene®| Flex-A-Chem®| Flex-A-Thane®
---|---|---|---|---|---|---|---|---|---|---|---
Chemical, Conc. % (1)| |
Acetate Solvents| F| U| U| Bromine, Anhydrous Liquid| U| U| U| Ethylene
Chlorohydrin| E| E| U
Acetic Acid, 10% in w| E| E| G| Butadiene| E| G| E| Ethylene Diamine| F| U| U
Acetic Acid, 50-60% in w| G| E| U| Butane| E| G| E| Ethylene Dichloride| F| U|
U
Acetic Acid, Glacial, 100%| G| E| U| Butyl Acetate| G| U| U| Ethylene Glycol|
E| E| E
Acetic Anhydride| E| E| U| Butyl Alcohol| G| E| U| Ethylene Oxide| E| E| E
Acetone| U| G| U| Butyric Acid| G| U| U| Fatty Acids| F| F| G
Acrylonitrile| G| G| U| Calcium Bisulfite, 1% in w| E| E| E| Ferric Chloride,
43% in w| E| E| E
Adipic Acid, 100% in alc| G| U| U| Calcium Bromide 52%| E| E| E| Ferric
Hydroxide| E| E| U
Air| E| E| E| Calcium Carbonate, 25% acids| E| E| E| Ferric Nitrate, 60% in w|
E| E| E
Alcohols General| E| E| U| Calcium Chlorate, 30% in w| E| E| E| Ferric Salts|
E| E| E
Aliphatic Hydrocarbons| U| U| G| Calcium Chloride, 30% in w| E| E| E| Ferric
Sulfate, 5% in w| E| E| E
Allyl Alcohol| F| E| U| Calcium Hydroxide, 10% in glycerol| E| E| U| Ferrous
Chloride, 40% in w| E| E| E
Alum, 5% in w| E| E| E| Calcium Hydroxide, 20% in water| E| E| U| Ferrous
Salts| E| E| E
Aluminum Chloride, 53% in w| E| E| E| Calcium Hypochlorite, 20% in w| E| E| G|
Ferrous Sulfate, 5% in w| E| E| E
Aluminum Chlorohydrate 50%| E| E| –| Calcium Nitrate, 55% in w| E| E| E|
Fluoborate Salts| E| E| E
Aluminum Fluoride, 0.1% in w| E| E| E| Calcium Oxide, 3% in w| E| E| E|
Fluoboric Acid, 48% in w| U| E| U
Aluminum Hydroxide, 2% in w| E| E| E| Calcium Salts| E| E| E| Fluorine Gas| U|
U| U
Aluminum Nitrate, 39% in w| E| E| E| Calcium Sulfate, 1% in w| E| E| E|
Fluosilicic Acid, 30% in w (Fluoride)| E| E| F
Aluminum Potassium Sulfate| E| E| E| Carbon Dioxide, Wet/Dry| E| E| E|
Formaldehyde, 37% in w| U| F| U
Aluminum Sulfate| E| E| E| Carbon Disulfide| U| U| U| Formic Acid, 25% in w|
E| E| F
Aluminum Sulfate, 50% in w| E| E| E| Carbon Monoxide| E| E| E| Formic Acid,
40-50% in w| G| E| U
Aluminum Salts| E| E| E| Carbon Tetrachloride| U| U| U| Formic Acid, 98% in w|
G| E| U
Amines| F| U| U| Carbonic Acid| E| E| E| Fruit Juice| E| E| E
Ammonia, Anhydrous Liquid| G| G| F| Castor Oil| F| G| E| Fuel Oil| U| U| G
Ammonium Acetate, 45% in w| E| E| G| Cellosolve| F| U| U| Furfural| U| U| U
Ammonium Bifluoride, 50% in w| E| E| E| Cellosolve Acetate| F| U| U| Gallic
Acid, 17% in acetone| G| U| U
Ammonium Bisulfite, 50%| E| E| –| Chloroacetic Acid, 20% in w| G| E| U|
Gasoline, Automotive| U| U| G
Ammonium Carbonate, 50% in w| E| E| E| Chlorobenzene, Mono, Di, Tri| U| U| U|
Gelatin| E| E| E
Ammonium Chloride, 23% in w| E| E| E| Chloroform| U| U| U| Glucose, 50% in w|
E| E| E
Ammonium Hydroxide, 5-10% in w| E| E| E| Chlorosulfonic Acid| U| U| U|
Glycerol, (Glycerin)| E| E| E
Ammonium Hydroxide, 30% in w| E| E| F| Chromic Acid, 10-20% in w| E| E| U|
Glycolic Acid, 70% in w| G| E| U
Ammonium Nitrate, 54% in w| E| E| E| Chromic Acid, 50% in w| F| G| U| Heptane|
U| U| G
Ammonium Persulfate, 30% in w| E| E| E| Chromium Salts| E| E| E| Hexane| U| U|
G
Ammonium Phosphate, 21% in w| E| E| E| Citric Acid, 50% in w| E| E| G|
Hydrazine| F| U| U
Ammonium Salts| E| E| E| Coconut Oil| F| G| E| Hydrobromic Acid, 20-50% in w|
U| E| U
Ammonium Sulfate, 40% in w| E| E| E| Copper Salts| E| E| E| Hydrobromic Acid,
100% in w| U| E| U
Amyl Acetate| G| U| U| Corn Syrup| E| E| E| Hydrochloric Acid, 10% in w| E| E|
F
Amyl Alcohol| U| E| F| Cottonseed Oil| F| G| E| Hydrochloric Acid, 37% in w|
G| E| U
Amyl Chloride| F| U| U| Cresol (m, o, or p)| U| E| U| Hydrocyanic Acid| E| E|
G
Aniline| F| U| U| Cresylic Acid| G| U| U| Hydrofluoric Acid, 10% in w| U| E| U
Aniline Hydrochloride| F| U| U| Cupric Chloride, 40% in w| E| E| E|
Hydrofluoric Acid, 25% in w| U| E| U
Antimony Salts| E| E| E| Cupric Cyanide, 10% in dilute bases| E| E| E|
Hydrofluoric Acid, 40-48% in w| U| E| U
Antimony Trichloride| E| E| F| Cupric Nitrate, 70% in w| E| E| E| Hydriodic
Acid, 55-58% in w| G| E| U
Aqua Regia| U| E| U| Cupric Sulfate, 13% in w| E| E| E| Hydrogen Peroxide, 3%
in w| E| E| E
Aqueous Ammonia| E| E| F| Cyclohexane| U| U| G| Hydrogen Peroxide, 10% in w|
E| E| E
Aromatic Hydrocarbons| U| U| U| Cyclohexanone| U| F| U| Hydrogen Peroxide, 30%
in w| E| E| F
Arsenic Acid, 20% in w| F| E| E| Detergent Solutions| G| E| E| Hydrogen
Peroxide, 90% in w| G| G| U
Arsenic Salts| E| E| E| Diacetone Alcohol| U| E| F| Hydrogen Sulfide| E| E| E
ASTM Reference No. 1 Oil| F| U| E| Dibutyl Phthalate| E| E| U| Hydroquinone,
7% in w| G| E| E
ASTM Reference No. 2 Oil| U| U| E| Dichlorobenzene| U| U| U| Hypochlorous
Acid, 25% in w| E| E| F
ASTM Reference No. 3 Oil| U| U| E| Diesel Fuel| U| U| G| Iodine, 50 ppm in w|
E| E| E
Barium Carbonate, 1% in w| E| E| E| Diethylamine, 2.5% in w| E| E| E| Isobutyl
Alcohol| F| E| U
Barium Chloride, 27% in w| E| E| E| Diethylene Glycol| E| E| E| Isooctane| U|
U| G
Barium Hydroxide, 5% in w| E| E| E| Diethyl Ether| F| U| U| Isopropyl Acetate|
G| U| U
Barium Salts| E| E| E| Dimethylformamide| G| E| U| Isopropyl Alcohol| F| E| U
Barium Sulfate, <1% in dilute acids| E| E| E| Dimethylsulfoxide| E| G| U|
Isopropyl Ether| F| U| U
Barium Sulfide| E| E| E| Dioctyl Phthalate| E| E| U| Jet Fuel, Jp8| U| U| G
Beer| E| E| E| Dioxane| U| U| U| Kerosene| U| U| G
Benzaldehyde| U| F| U| Ether| F| U| U| Ketones| U| F| U
Benzene| U| U| U| Ethyl Acetate| F| G| U| Lacquer Solvents| G| U| U
Benzenesulfonic Acid| U| U| U| Ethyl Alcohol (Ethanol)| F| E| U| Lactic Acid,
3-10% in w| E| E| G
Benzoic Acid| E| E| U| Ethyl Benzoate| U| U| U| Lactic Acid, 85% in w| G| E| U
Benzyl Alcohol| E| E| U| Ethyl Chloride| F| U| U| Lard, Animal Fat| F| G| E
Bleach Liquor, 22% in w| E| E| G| Ethyl Ether| F| U| U| Lead Acetate, 35% in
w| E| E| E
Borax, 6% in w| E| E| E| Ethylamine, 70% in w| U| G| U| Lead Nitrate, 27% in
w| E| E| E
Boric Acid, 4% in w| E| E| E| Ethylene Bromide| U| F| U| Lead Salts| E| E| E
NOTE: 28 Day Immersions at 73 °F E = ExcellentG = Good F = FairU = Not
Recommended| Flex-A-Prene®| Flex-A-Chem®| Flex-A-Thane®| Chemical, Conc.
% (1)| Flex-A-Prene®| Flex-A-Chem®| Flex-A-Thane®| Chemical, Conc.
% (1)| Flex-A-Prene®| Flex-A-Chem®| Flex-A-Thane®
---|---|---|---|---|---|---|---|---|---|---|---
Chemical, Conc. % (1)| |
Lemon Oil| U| U| G| Peracetic Acid up to 15%| F| G| U| Sodium Persulfate| E|
E| E
Lime Oil| U| U| G| Peracetic Acid, 15% to 18%| F| F| U| Sodium Peroxide, 10%
in w| E| E| E
Lime Slurry (Calcium Hydroxide)| E| E| U| Peracetic Acid, 20% to 30%| U| U| U|
Sodium Peroxide, 20% in w| E| E| E
Limonene-D| U| U| G| Perchloric Acid, 67% in w| E| E| U| Sodium Phosphate, 30%
in w| E| E| E
Linoleic Acid| F| F| G| Perchloroethylene| F| U| U| Sodium Salts| E| E| E
Linseed Oil| F| G| E| Phenol, 5-10% in w| E| E| U| Sodium Sulfate, 38% in w|
E| E| E
Lubricating Oils, Petroleum| U| U| E| Phenol, 91% in w| E| E| U| Sodium
Sulfide, 45% in w| E| E| E
Magnesium Carbonate, 1% in w| E| E| E| Phosphoric Acid, <10% in w| E| E| E|
Sodium Sulfite, 10% in w| E| E| E
Magnesium Chloride, 35% in w| E| E| E| Phosphoric Acid, 25% in w| E| E| E|
Stannic Chloride, 50% in w| E| E| F
Magnesium Hydroxide| E| E| E| Phosphoric Acid, 85% in w| E| E| U| Stannous
Chloride, 45% in w| E| E| E
Magnesium Hydroxide,10% in acids| E| E| E| Phosphorous Trichloride Acid| G| E|
U| Stearic Acid, 5% in alc| F| F| G
Magnesium Nitrate, 50% in w| E| E| E| Photographic Solutions| G| E| E| Styrene
Monomer| U| U| U
Magnesium Sulfate, 25% in w| E| E| E| Phthalic Acid, 9% in alc| E| E| U|
Sulfur Chloride| U| E| U
Maleic Acid, 30% in w| F| F| G| Phthalic Anhydride, 9% in alc| E| E| U| Sulfur
Dioxide, Gas Dry| E| E| F
Malic Acid, 36% in w| E| E| G| Picric Acid, 1% in w| U| E| U| Sulfur Dioxide,
Gas Wet| E| E| F
Manganese Salts| E| E| E| Plating Solutions| E| E| U| Sulfur Trioxide, Wet| G|
G| U
Manganese Sulfate, 34% in w| E| E| E| Polyaluminum Chloride (PAC) in w| E| E|
–| Sulfuric Acid, 10% in w| E| E| E
Mercuric Chloride, 6% in w| E| E| E| Potassium Amyl Xanthate (PAX)| –| G| –|
Sulfuric Acid, 30% in w| E| E| U
Mercuric Cyanide, 8% in w| E| E| E| Potassium Carbonate, 55% in w| E| E| E|
Sulfuric Acid, 95-98% in w| U| E| U
Mercurous Nitrate, 10% in dilute acids| E| E| E| Potassium Chloride, 20% in w|
E| E| E| Sulfurous Acid| E| E| E
Mercury| E| E| E| Potassium Cyanide, 33% in w| E| E| E| Tannic Acid, 75% in w|
G| E| U
Mercury Salts| E| E| E| Potassium Dichromate, 5% in w| E| E| E| Tanning
Solutions| E| E| F
Methane Gas| E| E| E| Potassium Hydroxide, 43% in w| E| E| U| Tartaric Acid,
56% in w| E| E| E
Methyl Acetate| G| U| U| Potassium Hypochlorite, 70% in w| E| E| E|
Tetrahydrofuran| U| U| U
Methyl Alcohol (Methanol)| E| E| U| Potassium Iodide, 56% in w| E| E| E|
Thionyl Chloride| E| E| F
Methyl Bromide| F| U| U| Potassium Nitrate, 10% in w| E| E| E| Tin Salts| E|
E| E
Methyl Chloride| F| U| U| Potassium Oxide, 50% in w| E| E| E| Titanium Salts|
E| E| E
Methyl Ethyl Ketone| U| F| U| Potassium Permanganate, 6% in w| E| E| E|
Toluene| U| U| U
Methyl Isobutyl Ketone| U| F| U| Potassium Salts| E| E| E| Trichloroacetic
Acid, 90% in w| G| E| U
Methylene Chloride| F| U| U| Potassium Sulfate, 10% in w| E| E| E|
Trichloroethane| F| U| U
Methyl Methacrylate| U| U| U| Potassium Sulfide, 20% in w| E| E| E|
Triethanolamine| F| U| U
Milk| E| E| E| Propyl Alcohol (Propanol)| F| E| U| Trichloroethylene| U| U| U
Mineral Oil| U| U| E| Propylene Glycol| E| E| E| Trichloropropane| F| U| U
Mineral Spirits| U| U| G| Propylene Oxide| E| E| E| Tricresyl Phosphate| E| E|
U
Molasses| E| E| E| Pyridine| F| F| U| Trisodium Phosphate| E| E| E
Monoethanolamine| F| U| U| Salicylic Acid, 1% in w| E| E| G| Turpentine| U| U|
G
Motor Oil| U| U| E| Silicone Oils| F| E| E| Urea, 20% in w| E| E| E
Naphtha| U| U| G| Silver Nitrate, 55% in w| E| E| E| Uric Acid| E| E| F
Naphthalene| U| U| G| Skydrol 500A| U| U| G| Vinegar| E| E| G
Nickel Chloride, 40% in w| E| E| E| Soap Solutions| G| E| E| Vinyl Acetate| G|
U| U
Nickel Nitrate, 75% in w| E| E| E| Sodium Acetate, 55% in w| E| G| U| Water,
Brine| E| E| E
Nickel Salts| E| E| E| Sodium Aluminate| E| E| U| Water, Deionized| E| E| E
Nickel Sulfate, 25% in w| E| E| E| Sodium Benzoate, 22% in w| E| E| E| Water,
Distilled| E| E| E
Nitric Acid, 10% in w| E| E| U| Sodium Bicarbonate, 7% in w| E| E| E| Xylene|
U| U| U
Nitric Acid, 35% in w| E| E| U| Sodium Bisulfate, 50% in w| E| E| E| Zinc
Chloride, 80% in w| E| E| E
Nitric Acid, 68-71% in w| U| E| U| Sodium Bisulfite| E| E| E| Zinc Salts| E|
E| E
Nitrobenzene| U| U| U| Sodium Carbonate,7% in w (soda ash)| E| E| E| Zinc
Sulfate, 30% in w| E| E| E
Nitromethane| U| U| U| Sodium Chlorate, 45% in w| E| E| E| | | |
Nitrous Acid, 10% in w| E| E| F| Sodium Chloride, 20% in w| E| E| E| (1) – If
a concentration is not indicated, assume100% concentration or the maximum
percent solubility in water. NOTE: Concentrations of room temperature
liquids are given in % volume. Concentrations of room temperature solids are
given in % weight. w = Wateralc = Alcohol- = no data
Oils, Animal| F| G| E| Sodium Chlorite, 12% in| E| –| –
Oils, Essential| U| U| F| Sodium Cyanide, 30% in w| E| E| U
Oils, Hydraulic (Phosphate Ester)| U| U| G| Sodium Dichromate, 70% in w| E| E|
E
Oils, Hydrocarbon| U| U| E| Sodium Fluoride, 3% in w| E| E| E
Oils, Vegetable| F| G| E| Sodium Hydroxide, 10-15% in w| E| E| U
Oleic Acid| F| F| G| Sodium Hydroxide, 30-50% in w| E| E| U
Oleum, 25% in w| E| E| U| Sodium Hypochlorite, 25% in w| E| E| G
Ortho Dichlorobenzene| U| U| U| Sodium Nitrate, 3.5% in w| E| E| E
Oxalic Acid, 12% in w| G| E| U| Sodium Perborate, 25% in w| E| E| E
Ozone, 300pphm| E| E| E| Sodium Permanganate, 20% in w| E| –| –
Palmitic Acid, 100% in ether| F| F| G| Sodium Permanganate, 40% in w| U| –| –|
Blue-White tests their products with water only. The information herein was supplied to Blue-White by reputable sources, but the accuracy or completeness thereof is not guaranteed, and the following is made in lieu of all warranties, expressed or implied, including the implied warranties of merchantability and fitness for purpose: Seller’s and manufacturer’s only obligation shall be to replace such quantity of product proved to be defective. Before using, user shall determine the suitability of the product for its intended use, and user assumes all risk and liability whatsoever in connection therewith. NEITHER SELLER NOR MANUFACTURER SHALL BE LIABLE EITHER IN TORT OR IN CONTRACT FOR ANY LOSS OR DAMAGES, DIRECT, INCIDENTAL, OR CONSEQUENTIAL, ARISING OUT OF THE USE OF CHEMICALS WITH THE PRODUCT. No statements or recommendation not contained herein shall have any force or effect unless in an agreement signed by officers of seller and manufacturer
5300 Business Drive, Huntington Beach, CA 92649
Tel: 714-893-8529 | Fax:
714-894-9492
www.blue-white.com | sales@blue-white.com
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