C70600 Plate, C70600 Round Bar, C70600 Fitting, Uns C70600 Flange, B466 C70600 Pipe, Uns C70600 Pipe
Reliant Pipes & Tubes Pvt. Ltd.

C70600 Plate, C70600 Round Bar, C70600 Fitting, Uns C70600 Flange, B466 C70600 Pipe, Uns C70600 Pipe

C70600 Plate, C70600 Round Bar, C70600 Fitting, Uns C70600 Flange, B466 C70600 Pipe, Uns C70600 Pipe

C70600 Plate, C70600 Round Bar, C70600 Fitting, Uns C70600 Flange, B466 C70600 Pipe, Uns C70600 Pipe

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Table Of Content


C70600 Copper Nickel "90/10"

ASTM B151, CuNi, ASTM B466, ASTM B111, ASTM B171, ASME SB466, ASME SB111, ASME SB151, ASME SB171, DIN 2.0872, BS 2871 CN102, EN CW352H, MIL-C-1726F, MIL-C-24679, MIL-T-16420K

C70600 (C706) & C71500 (C715), Copper nickel offers excellent corrosion resistance, especially in marine salt water environments. The main, wrought copper-nickel alloys chosen for sea water service contain 10 or 30 percent nickel. They also have important additions of iron and manganese which are necessary to maintain good corrosion resistance. Some of the primary uses for C706 include copper nickel fittings (CuNi Fittings) as well as condensers and exchanger shells.

Equivalencies Copper Nickel (90/10) tube/pipe:

KS D5301

JIS H3300

C7060T
ASTM B111 C70600
ASTM B466 C70600
BS2871 {PART2} CN102
AS1752 C70600
DIN17664 CuNi10Fe 1Mn
DIN 86019 åÊWL2.1972 CuNi10Fe 1.6Mn
EEMUA 144 7060X
MIL-T-16420K 706
EN12449 CW352H

Typical Uses for C706 Copper Nickel "90/10":

  • AUTOMOTIVE: Power Steering Tube, Brake Lines
  • CONSUMER: Screw Lamp Bases
  • INDUSTRIAL: Condenser Plates, Condensers, Weld Torch Tips, Heat Exchanger Tubes, Valve Bodies, Evaporator Tubes, Pressure Vessels, Distiller Tubes, Pump Impellers for Oil Refining, Ferrules, Evaporators
  • MARINE: Boat Hulls, Tube Sheet for Salt Water Service, Salt Water Pipe Fittings, Salt Water Piping Systems, Salt Water Piling Wrap, Hot Water Tanks, Salt Water Baffles, Propeller Sleeves, Ship Hulls, Water Hoses
  • PLUMBING: Flanges
  • Sizes Available From NBM
  • SOLID BAR: 1/4" - 12" diameter
  • PLATE: up to 6" thick

C70600 Copper Nickel Specifications

End Product Specification
C70600 Bar ASTM B151, B122, MILITARY MIL-C-15726
C70600 Pipe, Seamless ASME SB466, ASTM B466
C70600 Pipe, Welded ASME SB467, ASTM B608, B467
C70600 Plate ASTM B122, MILITARY MIL-C-15726
C70600 Plate, Clad ASTM B432
C70600 Plate, Condenser Tube ASME SB171, ASTM B171, SAE J463, J461
C70600 Rod ASTM B151, MILITARY MIL-C-15726
C70600 Rod, Welding AWS A5.15
C70600 Sheet ASTM B122, MILITARY MIL-C-15726, SAE J463, J461
C70600 Strip ASTM B122, MILITARY MIL-C-15726
C70600 Tube, Condenser ASME SB111, ASTM B552, B111, MILITARY MIL-T-15005, SAE J463, J461

C17200 Copper (CDA 172)

ASTM B196, AMS 4533, SAE J461, RWMA CLASS IV

C17200 is also known as Alloy 25 and is the most commonly utilized beryllium copper alloy and is notable for exhibiting the highest strength and hardness compared to commercial copper alloys. Its strength and hardness is similar to that of steel. C17200 copper's ultimate tensile and Rockwell hardness properties in a peak aged condition are in the 200 ksi range and RC 45 respectively (electrical conductivity 22% IACS minimum).

Typical Uses for C17200 Beryllium Copper:

ELECTRICAL:
Electrical Switch / Relay Blades Fuse Clips Switch Parts
Relay Parts Connectors Spring Connectors
Current Carrying Contact Bridges Belleville Washers
Navigational Instruments Clips
FASTENERS:
Washers Fasteners Lock Washers
Retaining Rings Roll Pins Screws
Bolts
INDUSTRIAL:
Pumps Springs Electrochemical
Shafts Non Sparking Safety Tools Flexible Metal Hose
Housings for Instruments Bearings Bushings
Valve Seats Valve Stems Diaphragms
Springs Welding Equipment Rolling Mill Parts
Spline Shafts Pump Parts Valves
Bourdon Tubes Wear Plates on Heavy Equipment Bellows
ORDINANCE:
Firing Pins
OTHER:
Tools

Sizes Available

  • SOLID BAR: 1/4" . 6" diameter
  • RECTANGLES: 3/8" x 1/2" . 1" x 3" thickness x width
  • SQUARES: 3/8" . 3" square
  • PLATES: 2" . 5" thickness
  • DISCS & RINGS: orged to size
  • HONED TUBES: up to 4" OD

C17200 C17200 Beryllium Copper Specifications

End Product Specification
C17200 Bar AMS 4650, 4651, 4533, ASTM B194, B196, MILITARY MIL-C-21657, SAE J463, J461
C17200 Extrusions ASTM B570
C17200 Forgings AMS 4650, ASTM B570
C17200 Plate ASTM B194
C17200 Rod AMS 4650, 4534, 4533, 4651, ASTM B196, MILITARY MIL-C-21657, SAE J463, J461
C17200 Rod, Forging AMS 4650
C17200 Sheet ASTM B194
C17200 Strip ASTM B194, SAE J463, J461
C17200 Tube, Seamless AMS 4535, ASTM B643
C17200 Wire AMS 4725, ASTM B197, SAE J463, J461
C70600*Copper-Nickel, 10% WroughtCOPPER NICKELS Copper-Nickel Alloys True True
Chemical Composition
Element
Cu(1,2) Pb Zn Fe Ni(3) Mn
(1) Cu + Sum of Named Elements 99.5% min.(2) Cu value includes Ag.(3) Ni value includes Co.
Min (%) 1.0 9.0
Max (%) Rem 0.05 1.0 1.8 11.0 1.0
Mechanical Properties*
Form
Temper
Temper Code
Tensile Strength
(ksi)
YS-0.2% Offset
YS-0.5% Ext
(ksi)
Elongation
(%)
Rockwell B scale
Rockwell F scale
Rockwell 30T scale
Bar Hard H04 50   Typ
25   Typ
15   Typ
Soft Anneal O60 38   Min
15   Typ
30   Typ
Flat Products 1/4 Hard H01 53   Typ
16   Typ
35   Typ
60   Typ
As Hot Rolled M20 40   Min for Standard
15   Typ
30   Min for Standard
3   Min for Standard
Hard H04 75   Typ
73   Typ
5   Typ
80   Typ
Tube Annealed O61 44   Typ
16   Typ
42   Typ
15   Typ
65   Typ
26   Typ
Light Drawn, Light Cold Rolled H55 45   Min for Standard
35   Min for Standard
10   Typ
72   Typ
100   Typ
70   Typ
* Measured at room temperature, 68°F (20°C).
Physical Properties
Melting Point - Liquidus°F 2100
Melting Point - Solidus°F 2010
Densitylb/cu in. at 68°F 0.323
Specific Gravity 8.94
Electrical Conductivity% IACS at 68°F 9
Thermal ConductivityBtu/ sq ft/ ft hr/ °F at 68°F 26
Coefficient of Thermal Expansion 68-57210⁻⁶ per °F (68 – 572°F) 9.5
Specific Heat CapacityBtu/ lb /°F at 68°F 0.09
Modulus of Elasticity in Tensionksi 18000
Modulus of Rigidityksi 6800
Fabrication Properties
Technique Suitability
Soldering Excellent
Brazing Excellent
Oxyacetylene Welding Fair
Gas Shielded Arc Welding Excellent
Coated Metal Arc Welding Good
Spot Weld Good
Seam Weld Good
Butt Weld Excellent
Capacity for Being Cold Worked Good
Capacity for Being Hot Formed Good
Machinability Rating 20
Common Fabrication Processes
  • Forming and Bending
  • Welding
    
Thermal Properties
Treatment Minimum* Maximum*
* Temperature is measured in Fahrenheit.
Annealing 1100 1500
Hot Treatment 1550 1750
Typical uses
Product Category Product Reason Category Reason
Automotive Brake Lines Corrosion Resistance Corrosion Resistance
Brake Lines Machining Characteristics Machinability
Brake Lines Mechanical Properties Moderate Strength
Power Steering Tube Corrosion Resistance Corrosion Resistance
Power Steering Tube Machining Characteristics Machinability
Power Steering Tube Mechanical Properties Moderate Strength
Consumer Screw Lamp Bases Conductivity (Electrical) Electrical Conductivity
Screw Lamp Bases Corrosion Resistance Corrosion Resistance
Screw Lamp Bases Forming Characteristics Formability
Screw Lamp Bases Mechanical Properties Moderate Strength
Industrial Condenser Plates Corrosion Resistance Corrosion Resistance to Fresh Water
Condenser Plates Corrosion Resistance Corrosion Resistance to Petrochemicals
Condenser Plates Corrosion Resistance Corrosion Resistance to Salt Water
Condenser Plates Mechanical Properties Moderate Strength
Condenser Plates Mechanical Properties Retains Strength at High Temperatures
Condensers Corrosion Resistance Corrosion Resistance to Fresh Water
Condensers Corrosion Resistance Corrosion Resistance to Petrochemicals
Condensers Corrosion Resistance Corrosion Resistance to Salt Water
Condensers Mechanical Properties Moderate Strength
Condensers Mechanical Properties Retains Strength at High Temperatures
Distiller Tubes Corrosion Resistance Corrosion Resistance to Fresh Water
Distiller Tubes Corrosion Resistance Corrosion Resistance to Petrochemicals
Distiller Tubes Corrosion Resistance Corrosion Resistance to Salt Water
Distiller Tubes Mechanical Properties Moderate Strength
Distiller Tubes Mechanical Properties Retains Strength at High Temperatures
Evaporator Tubes Corrosion Resistance Corrosion Resistance to Fresh Water
Evaporator Tubes Corrosion Resistance Corrosion Resistance to Petrochemicals
Evaporator Tubes Corrosion Resistance Corrosion Resistance to Salt Water
Evaporator Tubes Mechanical Properties Moderate Strength
Evaporator Tubes Mechanical Properties Retains Strength at High Temperatures
Evaporators Conductivity (Thermal) Thermal Conductivity
Evaporators Corrosion Resistance Corrosion Resistance
Evaporators Welding Characteristics Weldability
Ferrules Corrosion Resistance Corrosion Resistance to Fresh Water
Ferrules Corrosion Resistance Corrosion Resistance to Petrochemicals
Ferrules Corrosion Resistance Corrosion Resistance to Salt Water
Ferrules Mechanical Properties Moderate Strength
Ferrules Mechanical Properties Retains Strength at High Temperatures
Heat Exchanger Tubes Corrosion Resistance Corrosion Resistance to Fresh Water
Heat Exchanger Tubes Corrosion Resistance Corrosion Resistance to Petrochemicals
Heat Exchanger Tubes Corrosion Resistance Corrosion Resistance to Salt Water
Heat Exchanger Tubes Mechanical Properties Moderate Strength
Heat Exchanger Tubes Mechanical Properties Retains Strength at High Temperatures
Pressure Vessels Corrosion Resistance Corrosion Resistance
Pressure Vessels Mechanical Properties Moderate Strength
Pressure Vessels Welding Characteristics Weldability
Pump Impellers for Oil Refining Corrosion Resistance Corrosion Resistance
Pump Impellers for Oil Refining Corrosion Resistance Corrosion Resistance to 600 F.
Pump Impellers for Oil Refining Corrosion Resistance Corrosion Resistance to Petrochemicals
Valve Bodies Corrosion Resistance Corrosion Resistance
Valve Bodies Mechanical Properties Moderate Strength
Valve Bodies Welding Characteristics Weldability
Weld Torch Tips Corrosion Resistance Corrosion Resistance
Weld Torch Tips Mechanical Properties Moderate Strength
Weld Torch Tips Mechanical Properties Retains Strength at High Temperatures
Marine Boat Hulls Corrosion Resistance Corrosion Resistance
Boat Hulls Corrosion Resistance Corrosion Resistance to Fresh Water
Boat Hulls Corrosion Resistance Corrosion Resistance to Petrochemicals
Boat Hulls Corrosion Resistance Corrosion Resistance to Salt Water
Boat Hulls Fouling Resistance Non-Fouling
Boat Hulls Mechanical Properties Moderate Strength
Boat Hulls Mechanical Properties Retains Strength at High Temperatures
Hot Water Tanks Corrosion Resistance Corrosion Resistance to Fresh Water
Hot Water Tanks Corrosion Resistance Corrosion Resistance to Salt Water
Hot Water Tanks Mechanical Properties Moderate Strength
Hot Water Tanks Mechanical Properties Retains Strength at High Temperatures
Propeller Sleeves Corrosion Resistance Corrosion Resistance
Propeller Sleeves Corrosion Resistance Corrosion Resistance to 600 F.
Propeller Sleeves Mechanical Properties Moderate Strength
Salt Water Baffles Corrosion Resistance Corrosion Resistance
Salt Water Baffles Corrosion Resistance Corrosion Resistance to Salt Water
Salt Water Baffles Fouling Resistance Non-Fouling
Salt Water Baffles Mechanical Properties Moderate Strength
Salt Water Baffles Welding Characteristics Weldability
Salt Water Piling Wrap Corrosion Resistance Corrosion Resistance
Salt Water Piling Wrap Corrosion Resistance Corrosion Resistance to Salt Water
Salt Water Piling Wrap Fouling Resistance Non-Fouling
Salt Water Pipe Fittings Corrosion Resistance Corrosion Resistance
Salt Water Pipe Fittings Corrosion Resistance Corrosion Resistance to Salt Water
Salt Water Pipe Fittings Fouling Resistance Non-Fouling
Salt Water Pipe Fittings Mechanical Properties Moderate Strength
Salt Water Pipe Fittings Welding Characteristics Weldability
Salt Water Piping Systems Corrosion Resistance Corrosion Resistance
Salt Water Piping Systems Corrosion Resistance Corrosion Resistance to Salt Water
Salt Water Piping Systems Fouling Resistance Non-Fouling
Salt Water Piping Systems Mechanical Properties Moderate Strength
Salt Water Piping Systems Welding Characteristics Weldability
Ship Hulls Corrosion Resistance Corrosion Resistance to Fresh Water
Ship Hulls Corrosion Resistance Corrosion Resistance to Salt Water
Ship Hulls Fouling Resistance Non-Fouling
Ship Hulls Mechanical Properties Ductility
Ship Hulls Mechanical Properties Moderate Strength
Ship Hulls Mechanical Properties Retains Strength at High Temperatures
Tube Sheet for Salt Water Service Corrosion Resistance Corrosion Resistance
Tube Sheet for Salt Water Service Corrosion Resistance Corrosion Resistance to Salt Water
Tube Sheet for Salt Water Service Fouling Resistance Non-Fouling
Tube Sheet for Salt Water Service Mechanical Properties Moderate Strength
Tube Sheet for Salt Water Service Welding Characteristics Weldability
Water Hoses Corrosion Resistance Corrosion Resistance to Fresh Water
Water Hoses Corrosion Resistance Corrosion Resistance to Salt Water
Water Hoses Fouling Resistance Non-Fouling
Water Hoses Mechanical Properties Moderate Strength
Water Hoses Mechanical Properties Retains Strength at High Temperatures
Plumbing Flanges Corrosion Resistance Corrosion Resistance
Flanges Welding Characteristics Weldability
Applicable Specifications
Form Sub-Form Specific Sub-Form Application System Standard Description
Bar ASTM B122/B122M COPPER-NICKEL-ZINC ALLOY (NICKEL-SILVER) AND COPPER-NICKEL PLATE, SHEET, STRIP, AND ROLLED BAR
ASTM B151/B151M COPPER-NICKEL-ZINC ALLOY (NICKEL-SILVER) AND COPPER-NICKEL ROD AND BAR
MILITARY MIL-C-15726 COPPER-NICKEL ALLOY ROD, FLAT PRODUCTS (FLAT WIRE, STRIP, SHEET, BAR, AND PLATE) AND FORGINGS
Condenser & Heat Exchanger Tube with Integral Fins Welded ASTM B956/B956M WELDED COPPER AND COPPER-ALLOY CONDENSER AND HEAT EXCHANGER TUBES WITH INTEGRAL FINS
Forgings Forgings
Pipe Seamless Pipe ASME SB466 SEAMLESS COPPER-NICKEL PIPE AND TUBE
Welded Pipe ASME SB467 WELDED COPPER-NICKEL PIPE
Seamless Pipe ASTM B466/B466M SEAMLESS COPPER-NICKEL PIPE AND TUBE
Welded Pipe ASTM B467 WELDED COPPER-NICKEL PIPE
Plate Condenser Tube ASME SB171 COPPER ALLOY CONDENSER TUBE PLATES
ASTM B122/B122M COPPER-NICKEL-ZINC ALLOY (NICKEL-SILVER) AND COPPER-NICKEL PLATE, SHEET, STRIP, AND ROLLED BAR
Condenser Tube ASTM B171/B171M COPPER ALLOY CONDENSER TUBE PLATES
Clad ASTM B432 COPPER AND COPPER ALLOY CLAD STEEL PLATE
MILITARY MIL-C-15726 COPPER-NICKEL ALLOY ROD, FLAT PRODUCTS (FLAT WIRE, STRIP, SHEET, BAR, AND PLATE) AND FORGINGS
Condenser Tube SAE J461 WROUGHT AND CAST COPPER ALLOYS
Condenser Tube SAE J463 WROUGHT COPPER AND COPPER ALLOYS
Rod ASTM B151/B151M COPPER-NICKEL-ZINC ALLOY (NICKEL-SILVER) AND COPPER-NICKEL ROD AND BAR
Welding AWS A5.15 WELDING RODS FOR WELDING CAST IRON
MILITARY MIL-C-15726 COPPER-NICKEL ALLOY ROD, FLAT PRODUCTS (FLAT WIRE, STRIP, SHEET, BAR, AND PLATE) AND FORGINGS
Sheet ASTM B122/B122M COPPER-NICKEL-ZINC ALLOY (NICKEL-SILVER) AND COPPER-NICKEL PLATE, SHEET, STRIP, AND ROLLED BAR
MILITARY MIL-C-15726 COPPER-NICKEL ALLOY ROD, FLAT PRODUCTS (FLAT WIRE, STRIP, SHEET, BAR, AND PLATE) AND FORGINGS
SAE J461 WROUGHT AND CAST COPPER ALLOYS
SAE J463 WROUGHT COPPER AND COPPER ALLOYS
Strip ASTM B122/B122M COPPER-NICKEL-ZINC ALLOY (NICKEL-SILVER) AND COPPER-NICKEL PLATE, SHEET, STRIP, AND ROLLED BAR
MILITARY MIL-C-15726 COPPER-NICKEL ALLOY ROD, FLAT PRODUCTS (FLAT WIRE, STRIP, SHEET, BAR, AND PLATE) AND FORGINGS
Tube Condenser Tube ASME SB111 COPPER AND COPPER ALLOY SEAMLESS CONDENSER TUBES & FERRULE STOCK
Finned ASME SB359 COPPER & COPPER ALLOY SEAMLESS CONDENSER & HEAT EXCHANGER TUBES WITH INTEGRAL FINS
U-Bend ASME SB395 U-BEND SEAMLESS COPPER & COPPER ALLOY HEAT EXCHANGER & CONDENSER TUBE
Seamless ASME SB466 SEAMLESS COPPER-NICKEL PIPE AND TUBE
Welded ASME SB543 WELDED COPPER AND COPPER ALLOY TUBE
Condenser Tube ASTM B111/B111M COPPER AND COPPER ALLOY SEAMLESS CONDENSER TUBES AND FERRULE STOCK
Finned ASTM B359/B359M COPPER AND COPPER-ALLOY SEAMLESS CONDENSER AND HEAT EXCHANGER TUBES WITH INTEGRAL FINS
U-Bend ASTM B395/B395M U-BEND SEAMLESS COPPER AND COPPER ALLOY HEAT EXCHANGER AND CONDENSER TUBES
Seamless ASTM B466/B466M SEAMLESS COPPER-NICKEL PIPE AND TUBE
Seamless ASTM B469 SEAMLESS COPPER ALLOY TUBES FOR PRESSURE APPLICATION
Welded ASTM B543/B543M WELDED COPPER AND COPPER ALLOY HEAT EXCHANGER TUBE
Condenser Tube ASTM B552 SEAMLESS AND WELDED COPPER-NICKEL TUBES FOR WATER DESALTING PLANTS
Condenser Tube MILITARY MIL-T-15005 TUBES, COPPER-NICKEL ALLOY CONDENSER AND HEAT EXCHANGER
Welded MILITARY MIL-T-16420 TUBE, COPPER-NICKEL ALLOY, SEAMLESS AND WELDED
Seamless MILITARY MIL-T-16420 TUBE, COPPER-NICKEL ALLOY, SEAMLESS AND WELDED
Finned MILITARY MIL-T-22214 TUBE, CONDENSER AND HEAT EXCHANGER WITH INTEGRAL FINS
Condenser Tube SAE J461 WROUGHT AND CAST COPPER ALLOYS
Condenser Tube SAE J463 WROUGHT COPPER AND COPPER ALLOYS
Wire MILITARY MIL-C-15726 COPPER-NICKEL ALLOY ROD, FLAT PRODUCTS (FLAT WIRE, STRIP, SHEET, BAR, AND PLATE) AND FORGINGS
Corrosion Properties
Environmental Category Specific Environment Resistance Level Corrosion notes
Excellent Resistant at cryogenic and room temperatures
Alkali Aluminum Hydroxide Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Ammonium Hydroxide Poor Reduced corrosion resistance due to soluble complex ion formation
Barium Carbonate Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Barium Hydroxide Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Black Liquor, Sulfate Process Fair Corrosion rate increases at elevated temperatures or with traces of moisture
Calcium Hydroxide Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Lime Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Lime-Sulfur Fair Corrosion rate increases at elevated temperatures or with traces of moisture
Magnesium Hydroxide Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Potassium Carbonate Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Potassium Hydroxide Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Sodium Bicarbonate Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Sodium Carbonate Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Sodium Hydroxide Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Sodium Phosphate Excellent
Sodium Silicate Excellent Corrosion increases at elevated temperatures and in presence of oxidizers such as chromates or hypochlorates
Sodium Sulfide Fair Corrosion rate increases at elevated temperatures or with traces of moisture
Atmosphere Atmosphere, Industrial Excellent Affected by pollutants and other environmental factors. Hydrogen sulfide causes rapid tarnishing.
Atmosphere, Marine Excellent Protective green basic copper chloride or carbonate patina.
Atmosphere, Rural Excellent Low corrosion rates, no localized attack
Chlor. organic Carbon Tetrachloride, Dry Excellent Corrosion rate increases at elevated temperatures or with traces of moisture
Carbon Tetracholoride, Moist Good Corrosion rate increases at elevated temperatures
Chloroform, Dry Excellent Corrosion rate increases at elevated temperatures or with traces of moisture
Ethyl Chloride Good Corrosion rate increases at elevated temperatures or with traces of moisture
Methyl Chloride, Dry Excellent Corrosion rate increases at elevated temperatures or with traces of moisture
Trichlorethylene, Dry Excellent Corrosion rate increases at elevated temperatures or with traces of moisture
Trichlorethylene, Moist Good Corrosion rate increases at elevated temperatures
Fatty acid Oleic Acid Excellent Corrosion rate increases at elevated temperatures or with traces of moisture
Palmitic Acid Good Corrosion rate increases at elevated temperatures or with traces of moisture
Stearic Acid Good Corrosion rate increases at elevated temperatures or with traces of moisture
Food/beverage Beer Excellent May affect color or taste
Beet Sugar Syrups Excellent May affect color or taste
Cane Sugar Syrups Excellent May affect color or taste
Carbonated Beverages Good Acidity increases corrosion. May affect color or taste.
Carbonated Water Good Acidity increases corrosion. May affect color or taste.
Cider Excellent May affect color or taste
Coffee Excellent May affect color or taste
Corn Oil Excellent May affect color or taste
Cottonseed Oil Excellent May affect color or taste
Fruit Juices Good Acidity increases corrosion. May affect color or taste.
Gelatine Excellent May affect color or taste
Milk Excellent May affect color or taste
Sugar Solutions Excellent May affect color or taste
Vinegar Good Acidity increases corrosion. May affect color or taste.
Gas Ammonia, Absolutely Dry Excellent Rapid corrosion increases with traces of moisture
Ammonia, Moist Poor More corrosion resistant in dry gas
Carbon Dioxide, Dry Excellent Corrosion increases with trace of moisture
Carbon Dioxide, Moist Good More corrosion resistant in dry gas
Hydrogen Excellent Copper and copper alloys containing copper oxide susceptible to attack
Oxygen Excellent Scaling at elevated temperatures
Halogen gas Bromine, Dry Excellent Rapid corrosion increases with traces of moisture
Bromine, Moist Good More corrosion resistant in dry gas
Chlorine, Dry Excellent Rapid corrosion increases with traces of moisture
Chlorine, Moist Fair More corrosion resistant in dry gas
Hydrocarbon Acetylene Poor Forms explosive compound in presence of moisture
Asphalt Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Benzine Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Benzol Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Butane Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Creosote Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Crude Oil Good Careful consideration must be given to specific contaminants when selecting materials for this complex environment
Freon Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Fuel Oil Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Gasoline Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Hydrocarbons, Pure Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Kerosene Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Natural Gas Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Paraffin Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Propane Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Tar Not Recommended Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Turpentine Excellent Contaminants such as water, sulfides, acids and various organic compounds can increase corrosion significantly
Inorg. acid non-ox. Boric Acid Excellent Increased corrosion at elevated temperatures and with oxidizers including oxygen (air), dichromates, permanganates and sulfates
Carbolic Acid Good Increased corrosion at elevated temperatures and with oxidizers including oxygen (air), dichromates, permanganates and sulfates
Hydrobromic Acid Fair Increased corrosion at elevated temperatures and with oxidizers including oxygen (air), dichromates, permanganates and sulfates
Hydrochloric Acid Fair Generally limted to applications in cold, oxidizer free, dilute (<1%) or concentrated solutions
Hydrocyanic Acid Poor Reduced corrosion resistance due to soluble complex ion formation
Hydrofluoric Acid Fair Generally limted to applications in cold, oxidizer free, dilute (<1%) or concentrated solutions
Hydrofluosilicic Acid Good Generally limted to applications in cold, oxidizer free, dilute (<1%) or concentrated solutions
Phosphoric Acid Good Increased corrosion at elevated temperatures and with oxidizers including oxygen (air), dichromates, permanganates and sulfates
Sulfuric Acid Good Not suitable for hot concentrated solutions
Inorg. acid ox. Chromic Acid Poor Severe oxidizing environment.
Nitric Acid Poor Severe oxidizing environment.
Sulfurous Acid Fair Increased corrosion at elevated temperatures and with oxidizers including oxygen (air), dichromates, permanganates and sulfates
Liquid metal Mercury Poor Severe liquid metal embrittlement
Miscellaneous Glue Excellent Low corrosion rates, no localized attack
Linseed Oil Good Low corrosion rates, no localized attack
Rosin Excellent Low corrosion rates, no localized attack
Sewage Excellent Corrosion affected by salt concentration, temperature, velocity, dissolved oxygen content and pollutants.
Soap Solutions Excellent Corrosion affected by salt concentration, temperature, velocity, dissolved oxygen content and pollutants.
Varnish Excellent Low corrosion rates, no localized attack
Neutral/acid salt Alum Good
Alumina Excellent Low corrosion rates, no localized attack
Aluminum Chloride Good Strong agitation and aeration increases corrosion
Aluminum Sulfate Good Suitable for neutral or alkaline conditions
Ammonium Chloride Poor Reduced corrosion resistance due to soluble complex ion formation
Ammonium Sulfate Fair Reduced corrosion resistance due to soluble complex ion formation
Barium Chloride Good Strong agitation and aeration increases corrosion
Barium Sulfate Excellent Low corrosion rates, no localized attack
Barium Sulfide Fair High zinc content alloys preferred
Calcium Chloride Excellent Hydrolylsis produces weak acidic condition
Carbon Disulfide Good High zinc content alloys preferred
Magnesium Chloride Good Hydrolylsis produces weak acidic condition
Magnesium Sulfate Excellent Low corrosion rates, no localized attack
Potassium Chloride Excellent Hydrolylsis produces weak acidic condition
Potassium Cyanide Poor Reduced corrosion resistance due to soluble complex ion formation
Potassium Dichromate Acid Poor Highly oxidizing under acidic conditions
Potassium Sulfate Excellent Low corrosion rates, no localized attack
Sodium Bisulfate Excellent Suitable for neutral or alkaline conditions
Sodium Chloride Excellent Hydrolylsis produces weak acidic condition
Sodium Cyanide Poor Low corrosion rates, no localized attack
Sodium Dichromate, Acid Poor Highly oxidizing under acidic conditions
Sodium Sulfate Excellent Low corrosion rates, no localized attack
Sodium Sulfite Good Suitable for neutral or alkaline conditions
Sodium Thiosulfate Fair High zinc content alloys preferred
Zinc Chloride Fair Hydrolylsis produces weak acidic condition
Zinc Sulfate Good Suitable for neutral or alkaline conditions
Org. solvent Acetone Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Alcohols Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Amyl Acetate Excellent
Amyl Alcohol Excellent
Butyl Alcohol Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Ethers Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Ethyl Acetate Excellent
Ethyl Alcohol Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Lacquer Solvents Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Methyl Alcohol Excellent
Toluene Excellent Resistant up to 200F unless contaminated by water, acids, alkalies or salts
Organic acid Acetic Acid Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Acetic Anhydride Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Benzoic Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Butyric Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Chloracetic Acid Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Citric Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Formic Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Lactic Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Oxalic Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Tannic Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Tartaric Acid Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Trichloracetic Acid Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Organic comp. Aniline Fair Corrosion rate increases at elevated temperatures or with traces of moisture
Aniline Dyes Fair Corrosion rate increases at elevated temperatures or with traces of moisture
Castor Oil Excellent Low corrosion rates, no localized attack
Ethylene Glycol Excellent Low corrosion rates, no localized attack
Formaldehyde Excellent Low corrosion rates, no localized attack
Furfural Excellent Low corrosion rates, no localized attack
Glucose Excellent Low corrosion rates, no localized attack
Glycerine Excellent Low corrosion rates, no localized attack
Lacquers Excellent Low corrosion rates, no localized attack
Oxidizing salt Ammonium Nitrate Poor Reduced corrosion resistance due to soluble complex ion formation
Bleaching Powder, Wet Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Borax Excellent Low corrosion rates, no localized attack
Bordeaux Mixture Excellent Low corrosion rates, no localized attack
Calcium Bisulfite Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Calcium Hypochlorite Good Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Copper Chloride Fair Severe oxidizing environment.
Copper Nitrate Fair Oxidizing environment
Copper Sulfate Good Hydrolylsis produces weak acidic condition
Ferric Chloride Poor Severe oxidizing environment.
Ferric Sulfate Poor Severe oxidizing environment.
Ferrous Chloride Good Strong agitation and aeration increases corrosion
Ferrous Sulfate Good Hydrolylsis produces weak acidic condition
Hydrogen Peroxide Good Oxidizing environment
Mercury Salts Poor Noble metal salt, plates on copper surface
Potassium Chromate Excellent Suitable for neutral or alkaline conditions
Silver Salts Poor Noble metal salt, plates on copper surface
Sodium Bisulfite Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Sodium Chromate Excellent Suitable for neutral or alkaline conditions
Sodium Hypochlorite Fair Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Sodium Nitrate Excellent Useful corrosion resistance with moderate oxidizers levels and <5% chlorides. Optimum resistance at room temperature and above boiling point.
Sodium Peroxide Good Low corrosion rates, no localized attack
Sulfur comp. Hydrogen Sulfide, Dry Excellent Rapid corrosion increases with traces of moisture
Hydrogen Sulfide, Moist Poor High zinc content alloys preferred
Sulfur Chloride, Dry Excellent Rapid corrosion increases with traces of moisture
Sulfur Dioxide, Dry Excellent Scaling at elevated temperatures
Sulfur Dioxide, Moist Fair Mixed oxide and sulfide scale forms
Sulfur Trioxide, Dry Excellent Corrosion increases with trace of moisture
Sulfur, Dry Good High zinc content alloys preferred
Sulfur, Molten Poor Forms non-protective copper sulfide
Water Brines Excellent Resistant to most oxidizers. Refer to specific salt solution ratings.
Mine Water Fair Acidic waters containing oxidizers are highly corrosive.
Sea Water Excellent Corrosion affected by salt concentration, temperature, velocity, dissolved oxygen content and pollutants.
Steam Excellent Resistant to pure steam. Carbon dixide, dissolved oxygen can increase corrosion. Resistant to ammonia attack.
Water, Potable Excellent Corrosion affected by water chemistry (mineral content, acidity) system design and fabrication. Free carbon dioxide can cause pitting in cold water. Pitting in hot water caused by cathodic deposits.
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C70600 Plate, C70600 Round Bar, C70600 Fitting, Uns C70600 Flange, B466 C70600 Pipe, Uns C70600 Pipe
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