Highly Porous Open Cell Nickel‑Chromium‑Iron Foam
서론
- Nickel‑Chromium‑Iron Foam (Ni‑Cr‑Fe foam) is an open‑cell porous metal made from Ni‑Cr‑Fe heat‑resistant alloy with a 3D interconnected structure and high porosity. It combines good mechanical strength at elevated temperatures with stable electrical and thermal conductivity, as well as excellent oxidation and corrosion resistance in many hot gas and flue gas environments. The large specific surface area and low density make it ideal for high‑temperature and chemically demanding processes.
- Ni‑Cr‑Fe metal foam is widely used as a catalyst support, burner and radiant burner core, combustion element, high‑temperature gas or liquid filter, heat exchanger medium, flame stabilizer and gas distribution plate in petrochemical, metallurgy, power generation and environmental engineering. It can be supplied as sheets or custom‑cut parts with adjustable pore size (PPI), thickness and density to match different reactor designs and process requirements.
사양
| 유형 | Open cell Ni‑Cr‑Fe alloy foam |
| Purity / Alloy Base | Ni‑Cr‑Fe heat‑resistant alloy / stainless‑type system (similar to Ni‑Cr‑Fe stainless or heat‑resistant steels, with optimized Ni/Cr/Fe ratios for oxidation and corrosion resistance) |
| 양식 | Sheet, plate, strip, or custom‑cut blocks/parts depending on size & thickness |
| 셀 크기 (PPI) | Typically 10–80 PPI; other pore sizes can be customized on request |
| 두께 | Standard: approx. 0.5–20 mm; other thicknesses can be customized |
| 크기 및 모양 | Common sheets: e.g. 100 × 100 mm / 200 × 300 mm; can be cut or formed into different shapes as per request |
| 다공성 | Typically about 70% – 95%, depending on grade, PPI and density |
| 개방 셀 비율 | Usually ≥ 95% (3D interconnected open‑cell structure) |
| 부피 밀도 | Approx. 0.3–1.5 g/cm³ (adjustable by porosity and structure) |
| 표면 밀도 | Approx. 300–6000 g/m², depending on thickness and density |
| Thermal Conductivity (Effective) | Typically around 2–25 W/m·K (strongly depends on porosity and alloy; bulk Ni‑Cr‑Fe alloys are higher, but effective value is reduced by pores) |
| Mechanical Strength (Compressive) | Typically about 2–10 MPa (varies with density, pore size and alloy composition) |
| Average Tensile Strength (N/20 mm) | Vertical ≥ 20, horizontal ≥ 15 (typical for thin, medium‑density foam strips; actual values depend on specific product) |
| Temperature Resistance (Air / Oxidizing Atmosphere) | Generally suitable for long‑term use around 800–1000 ℃ (exact limit depends on Ni‑Cr‑Fe grade and environment; Cr provides high‑temperature oxidation resistance) |
| 외관 | Metallic gray Ni‑Cr‑Fe surface, uniform color, without obvious defects such as heavy oxide scale flaking, blind holes, large through holes, severe deformation or cracks |
| Chemical Composition | Ni‑Cr‑Fe multi‑component alloy; Cr content provides oxidation and corrosion resistance, while Ni/Fe provide mechanical strength and toughness (exact composition per specific grade/standard, e.g. Ni‑Cr‑Fe heat‑resistant steels) |
| Electrical Conductivity | Good metallic electrical conductivity; effective conductivity decreases with porosity and foam structure but remains suitable for use as current collectors, heating elements and catalyst supports |
| Corrosion & Oxidation Resistance | Good to excellent oxidation resistance in air and many combustion gases; good corrosion resistance in many high‑temperature oxidizing environments; not suitable for highly reducing/halide atmospheres beyond alloy design limits |
| 유연성 | Certain flexibility for thin, medium‑porosity sheets; can be slightly bent and compressed, but stiffness and brittleness increase with thickness and higher density |
| Elongation Rate (%) | Typically low compared with fully dense ductile alloys; for thin, high‑porosity foam, vertical ≈ 2–4%, horizontal ≈ 3–5% (reference values; actual data depend on grade and structure) |
| Applications | High‑temperature catalyst supports, burner and combustion elements, radiant burner cores, high‑temperature gas/liquid filters, heat exchanger media, gas distribution plates, flame stabilizers and energy‑absorbing/thermal insulation structures in petrochemical, power, metallurgy, environmental and thermal engineering fields |
차원 (두께* 길이*너비)
| 0.08mm*300mm*200mm | 0.2mm*200mm*300mm | 0.3mm*200mm*300mm |
| 0.5mm*200mm*300mm | 0.7mm*200mm*300mm | 0.9mm*200mm*300mm |
| 1.0mm*200mm*300mm | 1.3mm*200mm*300mm | 1.5mm*200mm*300mm |
| 1.7mm*200mm*300mm | 2.0mm*200mm*300mm | 5mm*200mm*300mm |
| 10mm*200mm*300mm | 30mm*200mm*300mm | 크기는 맞춤 제작이 가능합니다. |
다양한 금속 폼을 맞춤 제작하려면 아래 사진을 클릭하여 자세한 내용을 확인하세요:
 |
 |
 |
 |
 |
 |
 |
 |
