Titanium foam is a porous material with unique properties and applications. It is produced by converting titanium alloys or pure titanium into a highly porous structure. Here’s a brief introduction to titanium foam:

Porous structure: Titanium foam is characterized by its porous structure. It is achieved by controlling the release of gas or foaming agents during the material’s fabrication process. This high porosity provides excellent quality and surface reactivity.

Lightweight: Due to its porous structure, titanium foam is exceptionally lightweight. It has lower density compared to titanium alloys or pure titanium materials of the same volume. This lightweight feature makes titanium foam valuable in applications that require weight reduction, such as aerospace, automotive, and sporting equipment industries.

Superior strength and stiffness: Despite being lightweight, titanium foam exhibits remarkable strength and stiffness. The porous structure allows it to effectively absorb and distribute stress, enhancing its compressive and flexural strength. This advantage positions titanium foam well for lightweight and high-strength applications.

Energy absorption: Titanium foam demonstrates excellent energy absorption capabilities. The porous structure enables it to undergo plastic deformation and absorb impact energy, making it suitable for applications in collision protection, protective gear, and safety engineering.

Good thermal and electrical conductivity: Titanium foam possesses good thermal and electrical conductivity. The interconnected porosity facilitates rapid heat and electrical current transfer within the material. This makes titanium foam advantageous in applications such as heat exchangers, heat sinks, and electromagnetic shielding.

High-temperature performance: Titanium itself exhibits good high-temperature oxidation resistance, and titanium foam performs well under high-temperature conditions too. This makes titanium foam potentially useful in high-temperature applications, such as aerospace engine components, high-temperature filtration, and catalyst supports.

Titanium Foam Ti Metal Electrode Foam For Water Electrolyzer

Filtration accuracy: 0.45um-100um

Porosity: 28-50%

Transmittance rate: 0.02-20M3cm/m2h.mmH2O

Compressive strength: 0.5-1.5Mpa

Temperature resistance: 280 ° C (wet state)

Maximum working pressure range: 0.6Mpa

Precision: 0.22 µm 0.45 µm 1 µm 3 µm 5 µm 10 µm 20 µm 30µm  50 µm 80 µm 100 µm

1. The field of hydrogen production by electrolysis of water;
2. PEM electrolyzer diffusion layer;
3. Hydrogen fuel;
5. Hydrogen suction machine, hydrogen-rich water dispenser, hydrogen-rich cup;