Payment & Shipping Terms:
|Material:||Stainless Steel||Bonding:||Spot Welding Or Laser|
|Material Thickness:||0.08-0.2 Mm||Cell Side Length:||0.8-25 Mm|
|Height:||3-250 Mm||Applications:||Filtering, Sealing, Shielding, Separating, Guiding And Platform|
Welded Stainless Steel Honeycomb Core,
0.08mm Stainless Steel Honeycomb Core,
316L stainless honeycomb
Spot Welded Stainless Steel Honeycomb Core for Industrial Use is welded of multiple corrugated stainless-steel sheets as per to accurate pre-determined cell size while the corrugating is processed on a gear press with the sheets delivery from a roller of rolled stainless-steel. Hexagonal cells for obtaining these strips are welded points between them. Spot welding device is three electrodes in the upper part, which carries five welding points across the width of the strip of corrugated sheet metal. Spot welding device filled with press and advance mechanisms. There are five welders in every unit area to make sure the strength is enough and uniformly distributed based on electrodes welding of stack and resistance. The honeycomb core generally requires a good precision of welding process, high equipment control on the product and strict quality control during process. Stainless steel honeycomb is mainly for aerospace, high industrial application and civil areas, with the structure comprised of special foils (plates). Instead of general widely used adhesive bonding, stainless steel honeycomb is welded between those joint areas of the hexagonal shapes.
|Cell Size (mm)||25.0||16.0||12.7||10.0||6.4||5.6||4.8||3.2||1.6||0.8|
|Height Range (mm)||50-450||50-450||50-150||50-150||5-100||5-90||5-60||5-60||3-30||3-25|
|Foil Thickness (mm)||0.20||0.20||0.20||0.20||0.20||0.20||0.20||0.20||0.076||0.05|
|Cubic Density (kg/m3)||165||256||320||403||616||699||806||1164||909||1164|
|Materials||SS304, SS316 or SS316L|
|Welding||Spot Welding with one area five spots or laser welding|
|Shapes||Customized shape available not limited to ring, plate, loop etc|
Welded honeycomb core, no matter what material is, such as aluminum, stainless steel, steel, titanium etc, possesses better mechanical properties against regularly produced glued honeycomb core. So it performs significantly better again the common honeycomb bonded by adhesive on strength, modulus, corrosion resistance, dimensional stability etc. However, generally, these critical performance variables should be evaluated: material, airflow and attenuation.
1. Material Composition
Stainless steel grade should be considered according to the real application. Custom materials other than stainless steel are available upon request. Here are the parameters need to be evaluated:
Material type and grade is the first aspect to be evaluated then plating, discussed in depth later, can improve durability.
Material, structure and thickness of the material can affect the total part weight.
2. Corrosion resistance
Typically brass and stainless steel should be used in slashing environments. Plating or nonconductive surface coatings can improve corrosion resistance for all honeycomb types.
3. Shielding Performance
Different honeycomb core material offerings have different electrical performance, due to both inherent base material properties as well as the differing manufacturing processes used during honeycomb forming. Therefore, different EMI shielding performance may be realized. Shielding performance for different materials is ranked as brass, aluminum, steel and stainless steel. Plating can improve honeycomb shielding.
Specific attenuation requirements can be met through either plated or unplated alloys. Plating adds cost to the final product vent. Plating process for improving shielding is ranked as nickel, tin, tin-lead and zinc.
4. Airflow & Attenuation
Airflow and attenuation are inversely proportional. Infinitely large honeycomb cells result in infinitely small attenuation (and vice versa). Typically, as a design baseline, airflow performance requirements are calculated to meet thermal performance needs for the assembly that the vent is to be installed onto. Once airflow is determined, attenuation and other requirements can be evaluated. Standard cell sizes for honeycomb are 1/16", 1/8" and 1/4", with 1/8" being most common. Standard thicknesses are 1/4," 1/2" and 1," with 1/4" being most common.
• air, water and gas flow straighteners and filters
• EMI/RF Shielding: scientific instruments, sensitive facilities, and HEMP hardening.
• tables for water jets
• light separators
• structural pieces in electronic cabinetry, aircraft, thrust reversers, exhaust nozzles
• aircraft engine honeycomb seals and power generation turbine seals