Baoji City Changsheng Titanium Co.,Ltd
Baoji City Changsheng Titanium Co., Ltd
Add to Cart
Customization GR1/GR2 Titanium Bipolar Plates for PEM Electrolyzer
Product Name: Bipolar Plate
Application: Hydrogen production via water electrolysis, new energy batteries, hydrogen-generating fuel cells
Material: Titanium, Stainless Steel, Copper, Nickel
Titanium Purity: 99.7%
Grade: GR1 / GR2
Specification: Custom according to drawings
Processing Method: CNC / Etching
Titanium bipolar plates are essential components in PEM fuel cells and PEM water electrolyzers. They are responsible for distributing gases/liquids, conducting electricity, and supporting the membrane-electrode assembly. The production process involves several key steps:
Material: Commercially pure titanium (e.g., Grade 1 or Grade 2) or titanium alloys.
Thickness: Typically ranges from 0.1 mm to 1 mm depending on application.
Pickling: Removes surface oxide layers and contaminants.
Sandblasting or Mechanical Polishing: Enhances surface roughness for better coating adhesion.
Flow channels are designed to manage the flow of gases or liquids. Common forming methods include:
High-speed forming using precision dies.
Suitable for mass production.
Requires durable and high-cost molds.
Continuous production technique.
Used for simpler or straight channel patterns.
Precise patterning via photolithography and acid etching.
Best for complex or fine structures.
Higher cost and involves chemical waste management.
High-precision techniques suitable for R&D or small batches.
Enables very fine and custom flow field structures.
Two patterned titanium sheets may be joined to create a sealed bipolar plate:
Laser Welding or Diffusion Bonding: Ensures high sealing performance and structural integrity.
Titanium tends to form a non-conductive oxide layer (TiO₂), which affects electrical performance. Surface coatings are applied to improve conductivity and corrosion resistance.
Carbon-based Coatings: Graphene, carbon nanotubes.
Noble Metals: Platinum or gold (excellent conductivity and corrosion resistance, but costly).
Conductive Ceramics: Titanium nitride (TiN), niobium nitride (NbN).
Gas Tightness Test: To ensure sealing.
Electrical Conductivity Test
Corrosion Resistance Testing
Dimensional Accuracy Inspection
Titanium bipolar plates are used in various electrochemical systems, including:
Harsh acidic environment and high voltage conditions.
Titanium offers excellent corrosion resistance and durability.
Lightweight and corrosion-resistant properties are ideal for portable, automotive, and aerospace applications.
Used in chemical processing, water treatment, and green hydrogen production.
| Advantage | Description |
|---|---|
| Excellent Corrosion Resistance | Ideal for acidic and high-voltage environments. |
| Lightweight | Titanium has a low density (4.5 g/cm³), reducing overall system weight. |
| High Strength | Offers good mechanical strength and pressure resistance. |
| Thermal Conductivity | Facilitates efficient heat management within fuel cell stacks. |
| Long Service Life | Significantly longer lifespan compared to stainless steel or coated materials. |
| Flexible Manufacturing | Compatible with various forming and coating techniques, including high-precision methods. |
While titanium bipolar plates have many advantages, some challenges include:
High Material Cost: Titanium and its coatings are expensive.
Processing Difficulty: Titanium is harder to form and machine than steel.
Surface Conductivity Needs Optimization: Natural oxide layer requires effective surface treatment to maintain conductivity.