Product Introduction Of Proton Exchange Membrane Hydrogen:
The Proton exchange membrane materials we produce have become important products in this field due to their excellent performance and reliable quality. Through special material processing and structural design, the membrane materials of the Proton exchange membrane materials we produce show excellent mechanical strength and durability, can withstand long-term cyclic use, and maintain the stable performance of the proton membrane.
Product Advantages Of Proton Exchange Membrane Hydrogen:
Our Proton membranes are suitable for vanadium flow battery systems of various sizes. Whether it is a small laboratory device or a large energy storage system, our Proton membranes can perform well. This flexibility enables Proton membranes to meet the needs of different users and can be widely used in scientific research and commercial applications.
Thickness And Basis Weight Properties:
| Membrane Type | Thickness(microns)(um) | Weight(g/m²) |
| PXVAWE-125-T01 | 125 | 246 |
Physical And Other Properties:
| Physicaland Other Properties | Typical Value | Test Method |
| Tensile Test(23℃,50%RH) | ||
| Tensile Strength(MPa) | ≥30 | GB/T 20042.3-2022 |
| Tensile Modulus(MPa) | ≥400 | GB/T 20042.3-2022 |
| Elongation at break(%) | ≥120 | GB/T 20042.3-2022 |
| Specific Gravity | 1.97 | |
| Other Properties | Index Parameters | Test Method |
| Conductivity(S/cm) | ≥0.100 | GB/T 20042.3-2022 |
| Acid Capacity(meq/g) | 1.00±0.05 | GB/T 20042.3-2022 |
Hydrolytic Propertie:
| Hydrolytic Properties | Index Parameters | Test Method |
| Water Content(%) | 5.0±3.0 | GB/T 20042.3-2022 |
| Water Uptake(%) | 50.0±5.0 | GB/T 20042.3-2022 |
| Thickness Swelling Rate at 23℃,50% RH (% increase) | ||
| water soaked at 23℃ 50% RH | ≤5 | GB/T 20042.3-2022 |
| water soaked at 100℃ 50% RH | ≤15 | GB/T 20042.3-2022 |
| Linear Expansion at 23℃,50% RH (% increase) | ||
| water soaked at 23℃ 50% RH | ≤5 | GB/T 20042.3-2022 |
| water soaked at 100℃ 50% RH | ≤18 | GB/T 20042.3-2022 |
Precautions For Transporting Proton Exchange Membrane Hydrogen:
Proper packaging: Ensure that the Proton membrane is properly packaged to prevent mechanical damage during transportation.
Environmental control: Depending on the characteristics of the Proton membrane, it may need to be transported under specific temperature and humidity conditions to ensure that the performance of the Proton membrane is not affected.
Moisture-proof measures: The packaging of the Proton membrane is well sealed to prevent the membrane material from getting damp or coming into contact with moisture.
Shelf life: Pay attention to the shelf life of the Proton exchange membrane materials and use it within the validity period to ensure that the performance of the Proton membrane is not affected.
Proton Exchange Membrane Hydrogen Transport Mode:
Express shipping: For fast shipping of small size, small quantity or samples, express service is usually used. This mode of transportation provides door-to-door service, fast speed, and is suitable for urgent or small-scale transportation needs.
Freight shipping: For the transportation of large size, large quantity or heavy materials, freight shipping is generally used. This mode of transportation may include road transportation, rail transportation or multimodal transportation, depending on the requirements of the destination, cost and transportation time.
Air transportation: For international transportation or when fast arrival is required, air transportation is an option. Although the cost is higher, air transportation provides the fastest transportation speed and is suitable for long-distance and urgent transportation needs.
Ocean transportation: Ocean transportation is a cost-effective option for international transportation of large quantities of goods. Although the transportation time is longer, it has advantages in cost and transportation capacity and is suitable for non-urgent large-scale transportation.
