Ceramic printing reticular formation
Materials
Ceramic 3D printing materials (such as alumina, zirconia, ceramic composites, etc.)
Architecture and construction industry
Automotive, transport and mobility
Electrical engineering
Energy, oil and gas
Research and development
Aerospace
Mechanical and plant engineering
Process industry
Mold-making and tooling
Ceramic reticular formation is a structural form with unique morphology and properties, and its structural properties have the following three advantages.
1. Lightweight. The large number of pores significantly reduces the weight of the structure, making it advantageous for applications in weight sensitive industries.
2. Good permeability. Gas and liquid can flow in pores and can be used in fields such as filtration and separation, achieving functions such as solid-liquid separation and gas-solid separation.
3. Buffer energy absorption. When the mesh structure is subjected to external forces, the pores can deform and collapse, absorbing and resisting energy.
Ceramic reticular formation can achieve complex shapes and precise control through ceramic 3D printing, and are widely used in fields such as environmental protection, energy, and thermal engineering.
1. Lightweight. The large number of pores significantly reduces the weight of the structure, making it advantageous for applications in weight sensitive industries.
2. Good permeability. Gas and liquid can flow in pores and can be used in fields such as filtration and separation, achieving functions such as solid-liquid separation and gas-solid separation.
3. Buffer energy absorption. When the mesh structure is subjected to external forces, the pores can deform and collapse, absorbing and resisting energy.
Ceramic reticular formation can achieve complex shapes and precise control through ceramic 3D printing, and are widely used in fields such as environmental protection, energy, and thermal engineering.
