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ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode

Basic Information
Place of Origin: China
Brand Name: Precise Heater
Certification: CSA,UL,CE
Model Number: MMP1323
Minimum Order Quantity: 1PCS
Price: 200-800 U.S Dollars
Packaging Details: Export Wooden Case
Delivery Time: 7 days
Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Ability: 400PCS Per Month
Detail Information
Applications: Trivalent Chromium Plating Coating: Iridium Coated Titanium Anode
Standard: ASTM And Other Related Standards Processing Service: Bending, Welding, Decoiling, Cutting, Punching
Available Anode: Plate/bar/tube/wire/components Dimensions: Custom-made Sizes Available
Feature: Excellent Corrosion Resistance Guarantee: 12 Months
High Light:

ASTM Electroplating Anodes

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OEM Iridium Coated Titanium Anode

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Trivalent Chromium Plating Anode


Product Description

Titanium Anode With Iridium Mixed Metal Oxide Coating For Trivalent Chromium Plating

 

ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 0ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 1

Trivalent Chromium Plating
 

Application and process

ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 2Compared with hexavalent chromium plating, trivalent chromium plating is environmentally friendly, which makes the demand for trivalent chromium plating increase year by year. In the process of trivalent chromium plating, it is very important to prevent the oxidation of Cr3+ to Cr6+ and avoid pollution to bath solution. Traditional lead-base alloy anode or graphite anode is not suitable for trivalent chromium plating due to its high oxygen evolution potential. The titanium anode with iridium mixed metal oxide coating has low oxygen evolution potential, which effectively inhibits the oxidation of Cr3+ and ensures the stability of the plating solution. Moreover, titanium anode characterized by excellent conductivity, uniform current distribution and excellent electrolyte corrosion resistance is the best conductive electrode for trivalent chromium plating.

 

Typical application conditions


ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 3

 

Advantages

Promote the dispersion of metal coating

No or less Cr6+ ions are generated, to avoid the pollution of bath solution

No anode slime is generated, to ensure the cleanness and stability of the plating solution

Low voltage, high current efficiency, energy saving of plating bath

Good corrosion resistance and thermal shock resistance.

 

ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 4

Main application areas Anodes and coatings Details
Cathodic Protection

KERAMOX® Titanium anode

Platinised Titanium

Anodes based on Niobium or Tantalum

All round applicable

At high current densities, for example in sea water

High voltages or strongly corrosive electrolytes

Seawater electrolysis

KERAMOX® Titanium anode

Titanium with a Ruthenium Mixed Metal Oxide coating

Titanium with a Platinum-Iridium Oxide coating

Depending on amongst others temperature and salinity
Electroplating

Titanium with an Iridium Mixed Metal Oxide coating

Platinised Titanium

In highly acidic environments such as:

Electro galvanising (zinc plating)

Anodising of Aluminium

Chromium, Nickel,Tin, etc. plating

Precious metal plating

Reverse pulse Copper plating

Hard Chromium plating

Precious metal plating

Water treatment

Platinised Titanium

Titanium with an Iridium Mixed Metal Oxide coating

Boron-Doped-Diamond anodes

Electro dialysis with polarity reversal

Recovery of metals

Oxidation and break-down of organic contaminations

Higher overpotentials,amongst others for disinfection

Hypo chlorite & Disinfection

Titanium with a Ruthenium Mixed Metal Oxide coating

Titanium with an Iridium Mixed Metal Oxide coating

Titanium with a Platinum-Iridium Oxide coating

Depending on salinity, polarity reversal and current density
Synthesis reactions

Platinised Titanium

Titanium with an Iridium Mixed Metal Oxide coating

Boron-Doped-Diamond anodes

Depending on the particular reaction

At higher overpotentials

 

Hydrogen production Nickel electrodes with a precious metal coating

Coating process by means of exchange plating

The purpose is to decrease the overpotentials

 

ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 5

ASTM Electroplating Anodes Iridium Coated Titanium Anode Trivalent Chromium Plating Anode 6

Contact Details
Sam Leo

Phone Number : 13760888064

WhatsApp : +8613760888064