-40%

Uniweld, ALUMINUM SOLDER FLUX 1oz. Bottle, UNI-4300, F6CYL

$ 5.97

Availability: 100 in stock
  • Type: flux
  • Brand: uniweld
  • All returns accepted: ReturnsNotAccepted
  • MPN: F6CYL
  • Product Type: flux
  • Country of Manufacture: United States
  • Condition: New

    Description

    Gregoriou Brothers Refrigeration Since 1979
    Frosty-Freeze
    ALUMINUM SOLDER FLUX 1oz. Bottle
    UNIWELD
    Guaranteed The Very Best
    PART# F6CYL
    QUALITY TOOLS THAT GO TO WORK WITH YOU!
    UNIWELD
    1 oz.
    28 g.
    ALUMINUM SOLDERING FLUX
    LOW TEMPERATURE SOLDERING FLUX
    390 Degrees F to 500 Degrees F.
    FOR ALUMINUM AND UNLIKE METALS.
    The service technician is frequently confronted with the task of repairing or joining aluminum to aluminum and aluminum to copper or brass.
    A common repair problem occurs when an Air Conditioning System's evaporator coil develops a small pin hole leak.
    This product is an excellent product for this repair.
    For best results, carefully read and follow the steps listed below:
    (1.) Prepare the tubing by cleaning the surface and removing any oil, grease and oxides.
    To remove the oil and grease, use a chemical solvent.
    The oxides should be removed using only a stainless steel wire brush or emery cloth.
    Tubing surfaces MUST BE CLEAN.
    (2.) When making a repair on an evaporator coil, it will be necessary to preheat the tubing prior to applying the flux.
    A common mistake when making this type of repair is to apply the flux and then begin heating the tubing.
    The evaporator coil disperses the heat and the tubing never reaches the melting temperature of the alloy.
    The flux overheats and burns which then acts as an inhibitor that doesn't allow the alloy to bond properly to the base metal.
    Preheat the evaporator tubing and then apply the flux.
    (3.) Continue applying heat until the flux starts to bubble and then apply the solder (SOLD SEPERATE) into the area being repaired.
    (4.) NOTE: If the solder is having difficulty flowing or the area has been overheated, “do not panic”.
    Simply apply more flux using the metal tip flux applicator.
    Reapplying the flux will clean the surface and allow the alloy to flow and bond with the base metal.
    Allow the assembly to cool down slowly.
    Remove flux residue with hot water and clean using only a stainless steel brush.
    We are a Certified UPS Hazardous Materials Shipper for the United States and Canada.
    This item ships with UPS Ground or USPS Parcel Select, First Class Ground only, under the ORM-D exception under Limitied Quantities as a Hazardous Materials Package according to USDOT 49 CFR.
    UNIWELD Guaranteed The Very Best PART# F6CYL QUALITY TOOLS THAT GO TO WORK WITH YOU! UNIWELD 1 oz. 28 g. ALUMINUM SOLDERING FLUX LOW TEMPERATURE SOLDERING FLUX 390 Degrees F to 500 Degrees F. FOR ALUMINUM AND UNLIKE METALS. The service technician is frequently confronted with the task of repairing or joining aluminum to aluminum and aluminum to copper or brass. A common repair problem occurs when an Air Conditioning System's evaporator coil develops a small pin hole leak. This product is an excellent product for this repair. For best results, carefully read and follow the steps listed below: (1.) Prepare the tubing by cleaning the surface and removing any oil, grease and oxides. To remove the oil and grease, use a chemical solvent. The oxides should be removed using only a stainless steel wire brush or emery cloth. Tubing surfaces MUST BE CLEAN. (2.) When making a repair on an evaporator coil, it will be necessary to preheat the tubing prior to applying the flux. A common mistake when making this type of repair is to apply the flux and then begin heating the tubing. The evaporator coil disperses the heat and the tubing never reaches the melting temperature of the alloy. The flux overheats and burns which then acts as an inhibitor that doesn't allow the alloy to bond properly to the base metal. Preheat the evaporator tubing and then apply the flux. (3.) Continue applying heat until the flux starts to bubble and then apply the solder (SOLD SEPERATE) into the area being repaired. (4.) NOTE: If the solder is having difficulty flowing or the area has been overheated, “do not panic”. Simply apply more flux using the metal tip flux applicator. Reapplying the flux will clean the surface and allow the alloy to flow and bond with the base metal. Allow the assembly to cool down slowly. Remove flux residue with hot water and clean using only a stainless steel brush.
    Gregoriou Brothers Refrigeration Since 1979
    Frosty-Freeze
    ALUMINUM SOLDER FLUX 1oz. Bottle
    UNIWELD
    Guaranteed The Very Best
    PART# F6CYL
    QUALITY TOOLS THAT GO TO WORK WITH YOU!
    UNIWELD
    1 oz.
    28 g.
    ALUMINUM SOLDERING FLUX
    LOW TEMPERATURE SOLDERING FLUX
    390 Degrees F to 500 Degrees F.
    FOR ALUMINUM AND UNLIKE METALS.
    The service technician is frequently confronted with the task of repairing or joining aluminum to aluminum and aluminum to copper or brass.
    A common repair problem occurs when an Air Conditioning System's evaporator coil develops a small pin hole leak.
    This product is an excellent product for this repair.
    For best results, carefully read and follow the steps listed below:
    (1.) Prepare the tubing by cleaning the surface and removing any oil, grease and oxides.
    To remove the oil and grease, use a chemical solvent.
    The oxides should be removed using only a stainless steel wire brush or emery cloth.
    Tubing surfaces MUST BE CLEAN.
    (2.) When making a repair on an evaporator coil, it will be necessary to preheat the tubing prior to applying the flux.
    A common mistake when making this type of repair is to apply the flux and then begin heating the tubing.
    The evaporator coil disperses the heat and the tubing never reaches the melting temperature of the alloy.
    The flux overheats and burns which then acts as an inhibitor that doesn't allow the alloy to bond properly to the base metal.
    Preheat the evaporator tubing and then apply the flux.
    (3.) Continue applying heat until the flux starts to bubble and then apply the solder (SOLD SEPERATE) into the area being repaired.
    (4.) NOTE: If the solder is having difficulty flowing or the area has been overheated, “do not panic”.
    Simply apply more flux using the metal tip flux applicator.
    Reapplying the flux will clean the surface and allow the alloy to flow and bond with the base metal.
    Allow the assembly to cool down slowly.
    Remove flux residue with hot water and clean using only a stainless steel brush.
    We are a Certified UPS Hazardous Materials Shipper for the United States and Canada.
    This item ships with UPS Ground or USPS Parcel Select, First Class Ground only, under the ORM-D exception under Limitied Quantities as a Hazardous Materials Package according to USDOT 49 CFR.
    UNIWELD
    Guaranteed The Very Best
    PART# F6CYL
    QUALITY TOOLS THAT GO TO WORK WITH YOU!
    UNIWELD
    1 oz.
    28 g.
    ALUMINUM SOLDERING FLUX
    LOW TEMPERATURE SOLDERING FLUX
    390 Degrees F to 500 Degrees F.
    FOR ALUMINUM AND UNLIKE METALS.
    The service technician is frequently confronted with the task of repairing or joining aluminum to aluminum and aluminum to copper or brass.
    A common repair problem occurs when an Air Conditioning System's evaporator coil develops a small pin hole leak.
    This product is an excellent product for this repair.
    For best results, carefully read and follow the steps listed below:
    (1.) Prepare the tubing by cleaning the surface and removing any oil, grease and oxides.
    To remove the oil and grease, use a chemical solvent.
    The oxides should be removed using only a stainless steel wire brush or emery cloth.
    Tubing surfaces MUST BE CLEAN.
    (2.) When making a repair on an evaporator coil, it will be necessary to preheat the tubing prior to applying the flux.
    A common mistake when making this type of repair is to apply the flux and then begin heating the tubing.
    The evaporator coil disperses the heat and the tubing never reaches the melting temperature of the alloy.
    The flux overheats and burns which then acts as an inhibitor that doesn't allow the alloy to bond properly to the base metal.
    Preheat the evaporator tubing and then apply the flux.
    (3.) Continue applying heat until the flux starts to bubble and then apply the solder (SOLD SEPERATE) into the area being repaired.
    (4.) NOTE: If the solder is having difficulty flowing or the area has been overheated, “do not panic”.
    Simply apply more flux using the metal tip flux applicator.
    Reapplying the flux will clean the surface and allow the alloy to flow and bond with the base metal.
    Allow the assembly to cool down slowly.
    Remove flux residue with hot water and clean using only a stainless steel brush.