Description

Noble Metal Oxide Titanium Electrodes

Chlorine Generating Electrode Series

Types:

Chlorine Generating Electrode
Ru-Ir Titanium Electrode

Specifications

Base Material: Pure Titanium
Shapes Available:
- Plates
- Meshes
- Wires
- Rods
- Multi-Hole Titanium
- Tubes
Current Density:
- Maximum: <3200 A/m²
- Common Use: <1500 A/m²
Manufacturing Process: Sintering
Coating Materials: Ruthenium (Ru), Iridium (Ir), Titanium (Ti), etc.
Precious Metal Content: 5-20 g/m²
Coating Thickness: 4-15 μm
Weight Loss During Strengthening: ≤10 mg
Polarization Rate: ≤40 mV
Service Life:
- Electrolyte: 0.5 mol/L Sulfuric Acid
- Duration: ≥20 hours
Chlorine Evolution Potential: ≤1.13 V (Saturated Calomel Electrode)
Oxygen Evolution Potential: ≤1.00 V (Mercury Sulfide Electrode)
Chlorine Efficiency:
- ≥85% in 3.5% NaCl solution at 15°C
- ≥60% in 3.5% NaCl solution at 5°C

Applications of Ru-Ir Titanium Electrodes

Chlor-alkali Industry
Chlorate Production
Hypochlorite Production
Perchlorate Production
Seawater Electrolysis
Chlorine Dioxide Production
Drinking Water Treatment
Industrial Water Treatment
Power Plant Cooling Water Treatment
Electrolytic Extraction of Non-Ferrous Metals
Cathodic Protection for Ships
Seawater Desalination

Titanium Electrodes for Sodium Hypochlorite Generators

1. Electrode Working Principle:

Reactions in the Electrolytic Cell:
- Overall Reaction: NaCl + H₂O → NaOH + Cl₂ + H₂↑
- Anode Reaction: 2NaCl → 2Na⁺ + Cl₂ + 2e⁻
- Cathode Reaction: 2H₂O + 2e⁻ → H₂↑ + 2OH⁻

2. Technical Parameters:

Water Temperature: ≤60°C
Current Density: ≤1500 A/m²
Service Life: ≥250 hours
Chlorine Evolution Potential: ≤1.13 V
Current Efficiency:
- Warm Water (15°C): ≥85%
- Cold Water (5°C): ≥65%

Noble Metal Oxide Titanium Electrodes

Types:

Oxygen Generating Electrode
Iridium-Tantalum Titanium Electrode

Specifications

Base Material: Pure Titanium
Available Shapes: Plates, Meshes, Wires, Rods, Multi-Hole Titanium, Tubes
Current Density: <8000 A/m²
Manufacturing: Sintering
Coating Materials: Iridium (Ir), Tantalum (Ta), etc.
Precious Metal Content: 2-25 g/m²
Coating Thickness: 1-15 μm
Service Life:
- Electrolyte: 1.0 mol/L Sulfuric Acid
- Duration: ≥20 hours
Oxygen Evolution Potential: ≤1.00 V (Mercury Sulfide Electrode)

Quality and Innovation

With 15 years of expertise, Titime collaborates with top experts to enhance electrode performance, ensuring cutting-edge and efficient technologies.

Applications

Chemical Recovery: Convert sodium sulfate to sulfuric acid and caustic soda
Cathodic Protection
Water Electrolysis
Extraction of Non-Ferrous Metals
Copper Foil Manufacturing
Aluminum Foil Anodes
Tin Plating on Steel
Organic Electrolysis

Why Choose Our Electrodes

High Performance: Durable in harsh conditions and high temperatures
Long-Lasting Coatings: High precious metal content for efficiency and longevity
Versatile Use: Suitable for various industries like metallurgy and water treatment
Quality Assurance: Advanced sintering ensures consistent quality
Customizable: Available in multiple shapes and specifications

Titanium Electrodes for Electrolytic Copper Foil

Key Features

Highly Stable: Extremely corrosion-resistant, suitable for various environments.
High Overpotential for Oxygen Evolution: Efficient for oxygen-generating reactions.
Low Overpotential for Hydrogen Evolution: Efficient for hydrogen-generating reactions.

Specifications

Base Material: Pure Titanium
Available Shapes: Plates, Meshes, Wires, Rods, Tubes, Multi-Hole Titanium, Titanium Felt, etc.
Current Density: <1000 A/m²
Manufacturing Process: Sintering/Electroplating
Coating Material: Platinum (Pt)
Precious Metal Content: 21.75 g/m²
Platinum Coating Thickness: 0.1-5 μm

Applications

Organic Synthesis
Cathodic Protection
Perchlorate Production
Seawater Electrolysis
Water Electrolysis
Hydrogen Peroxide Production

Why Choose Our Platinized Titanium Electrodes

Durability: Resistant to corrosion and ideal for harsh chemical environments.
Efficiency: Superior performance in both oxygen and hydrogen reactions.
Versatility: Suitable for a wide range of industrial processes.
Quality Assurance: Manufactured using advanced sintering and electroplating techniques to ensure consistent quality.

Lead Oxide Titanium Electrodes

Overview

Lead dioxide (PbO₂) titanium electrodes are highly conductive materials with metallic-like properties. They have been extensively used in the electrolysis industry due to their excellent performance characteristics.

Key Features

Excellent Conductivity:
- Electrical resistance: 4×10⁻⁵ to 5×10⁻⁵ Ω·cm.
Superior Anode Performance:
- High oxygen evolution potential.
- Strong oxidizing ability.
- High corrosion resistance.
- Good electrical conductivity.
- High current density.
Enhanced Stability:
- Advanced multi-layer (base, intermediate, surface) coating process.
- Prevents traditional issues like cracking, peeling, and passivation.
- Improved durability and performance.

Specifications

Base Material: Pure Titanium
Coating Material: Lead Dioxide (PbO₂)
Coating Thickness: Varies based on application requirements
Electrical Resistance: 4×10⁻⁵ to 5×10⁻⁵ Ω·cm
Current Density: High, suitable for demanding electrolysis processes

Applications

Electrolysis:
- Used in various electrochemical processes requiring efficient oxygen evolution.
Metallurgy:
- Essential for high-performance metallurgical applications.
Other Industries:
- Suitable for any application requiring durable and highly conductive anode materials.

Advantages

High Performance:
- Maintains integrity under extreme conditions.
Durability:
- Enhanced resistance to wear and corrosion extends electrode lifespan.
Efficiency:
- High conductivity and effective oxygen evolution improve overall process efficiency.
Reliability:
- Consistent performance in demanding industrial environments.

Why Choose Our Lead Oxide Titanium Electrodes

Innovative Design:
- Advanced multi-layer coating technology ensures superior stability and performance.
Quality Assurance:
- Manufactured under strict quality controls to meet industry standards.
Customization:
- Available in various sizes and specifications to suit specific application needs.
Experienced Support:
- Backed by 15 years of expertise in electrode material development and supply.

Lead-titanium electrode technology research and development

Reviews

There are no reviews yet.

Be the first to review “Electrode”

Electrode

Description

Noble Metal Oxide Titanium Electrodes

Chlorine Generating Electrode Series

Specifications

Applications of Ru-Ir Titanium Electrodes

Titanium Electrodes for Sodium Hypochlorite Generators

Noble Metal Oxide Titanium Electrodes

Specifications

Quality and Innovation

Applications

Why Choose Our Electrodes

Titanium Electrodes for Electrolytic Copper Foil

Key Features

Specifications

Applications

Why Choose Our Platinized Titanium Electrodes

Lead Oxide Titanium Electrodes

Overview

Key Features

Specifications

Advantages

Why Choose Our Lead Oxide Titanium Electrodes

Lead-titanium electrode technology research and development

Reviews

Tantalum

Zirconium

Chromium

+1 840 841 25 69

Electrode

Description

Noble Metal Oxide Titanium Electrodes

Chlorine Generating Electrode Series

Specifications

Applications of Ru-Ir Titanium Electrodes

Titanium Electrodes for Sodium Hypochlorite Generators

Noble Metal Oxide Titanium Electrodes

Specifications

Quality and Innovation

Applications

Why Choose Our Electrodes

Titanium Electrodes for Electrolytic Copper Foil

Key Features

Specifications

Applications

Why Choose Our Platinized Titanium Electrodes

Lead Oxide Titanium Electrodes

Overview

Key Features

Specifications

Advantages

Why Choose Our Lead Oxide Titanium Electrodes

Lead-titanium electrode technology research and development

Reviews

Related products

Tantalum

Zirconium

Chromium

+1 840 841 25 69