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Raw Materials for Extruded Aluminum Profiles

 The metal materials used in aluminum profile extrusion vary, affecting the performance and applications of the resulting profiles. The following aluminum alloy models are commonly used for industrial extrusion profiles: 6060, 6063, 6063A, 6061, 6082, 6106, 6101, 6101B, 6005, 6005A, 6351, 6863, 2014, 7005, and 7075. Each material offers different properties, making them suitable for various applications. Common Aluminum Alloy Profiles and Their Applications 1. 6063 and 6060 Series Applications : Machine building, doors, windows, curtain walls, all-aluminum furniture (indoor furniture, toilets), radiators, elevators, and general industrial uses. 2. 6061 and 6082 Series Applications : Refrigerated boxes, container bottom plates, truck frame parts, and vehicle track structures. 3. 6106 Series Applications : Various corrosion-resistant profiles. 4. 6106 and 6101B Series Applications : High-strength electric busbars and various conductive materials. 5. 6005 Series Applications : Ladders, TV
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Uses of Stainless Steel Medium and Thick Plates

   Main Applications and Uses of Stainless Steel Medium and Thick Plates Chemical Industry Uses: Acids, alkalis, ammonia, fertilizer manufacturing Equipment: Heat exchangers, storage tanks, crystallizers, absorption towers, mixers, burners, evaporators, carbonization towers, distillation towers, preheaters, neutralization towers, concentrators, granulation towers, synthesis towers, condensers, washing towers, stripping towers, flange pipelines Petroleum Refining and Chemical Industry Uses: Refining and petrochemical processes Equipment: Distillation towers, trays, refining towers, reaction towers, decomposition towers, heat exchangers, condensers, catalytic absorption towers, air coolers, water coolers, thermal decomposition furnaces, stripping towers, reactors, flange pipes Chemical Fiber and Synthetic Fiber Industry Uses: Equipment: Adjustment tanks, evaporators, concentration tanks, cooling cylinders, storage tanks, melting chambers, spinning heads, spinning plates, reactors, overla
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Passivation and Applications of Stainless Steel

  Passivation and Applications of Stainless Steel Stainless steel is commonly seen in items like anti-theft windows, doors, and handrails. However, stainless steel has other important functions, such as passivation and its role in human health. Let's explore these together. Passivation of Stainless Steel Passivation is a process that enhances the corrosion resistance of stainless steel. Here are the five steps involved: Pre-Passivation Treatment: Grease, oxidized pollutants, and other contaminants must be removed from the surface to ensure effective passivation. Post-Passivation Treatment: Stabilizing the passivation effect is crucial. Chemicals can be used to improve the stability of stainless steel after passivation. Passivation Time: Longer passivation time can enhance the passivation performance, even though higher agent concentration can reduce the time needed. Passivation Temperature: Operating at the right temperature helps ensure the best passivation effect. Passivation
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Customizable Wear Plates

 We customize plates in different sizes and thicknesses based on customer drawings. Additionally, we can cut, bend, and weld wear plates into specific shapes and parts. Characteristics Chromium Carbide Overlay Wear-Resistant Plate Chemical Composition: C: 3.0-5.0%, Cr: 18-30% Chromium Carbide Cr7C3 Volume Fraction: Approximately 40% Wear-Resistant Layer Thickness: Up to 50 mm Heat Resistance: Up to 600°C Standard Wear-Resistant Area Sizes: 1400 3400 mm, 1500 3000 mm, 2000*3000 mm Surface: Smooth with better flatness Hardness: HRC 58-65 Our common chromium carbide wear plates are produced by flux-cored arc welding, suitable for high abrasion and low to medium impact applications. Chemicals Hardness Sheet Size Base Metal C – Cr – Fe HRC 58-63 1400*3400 Q235/Q345. etc Chemical Composition(%) C Cr Mn Si Fe Other 3.0-5.0 15.0-35.0 1.0-3.0 1.0-3.0 Bal. - Hardness HRC 58-65 Standard Thickness(mm) 3+3;  4+4;  5+5;  6+4;  6+6;  8+4;  8+6;  8+8;  10+10;  12+12; etc (overlay thickness up t
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Aluminized Steel

  Aluminized Steel Expertise in Slit Steel Coils At Teda Ganghua, we specialize in providing slit steel coils tailored to your specific needs. Our process involves precise slitting of steel coils to the desired width, gauge, and hardness. We handle various flat-rolled carbon steels, including hot-rolled pickled and oiled, cold-rolled, galvanized, and aluminized steels. Benefits of Aluminized Steel Corrosion Protection Aluminized steel offers excellent resistance to corrosion from chemical and electrochemical reactions. Compatibility with Other Metals Due to its anodic properties, aluminized steel is compatible with other metals and minimizes the risk of galvanic corrosion. Cost-Effectiveness Aluminized steel provides similar benefits to stainless steel at a lower cost. High-Temperature Resistance Type 1 aluminized steel can withstand heat and oxidation up to 704°C, reducing the risk of deformation under extreme heat. Heat Reflectivity The aluminum coating makes aluminized steel an exce
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New Website Launched

  New Website Launched Expansion of Business Content A new wear-resistant steel website has been launched to expand our business offerings.  https://www.wear-resistantsteel.com/ New Additions Wear-resistant steel industry information Various wear-resistant parts Free Online Inquiries Users are welcome to make free online inquiries. Teda Ganghua Metal -17 years Steel Sheets/Plates Supplier Bring detailed specifications to  contact me  if you need We have high quality and reasonable prices  📧  sales1@tedaganghua.com Whatsapp: +86 15822676888 Welcome to our website!  https://www.teda-metal.com/  &  https://www.teda-aluminum.com/   &  https://www.gh-stainlesssteel.com
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High Chromium Bimetal Cladding Plate

  High Chromium Bimetal Cladding Plate Key Features Alloy Composition: Carbon: 5.0% Chromium: 27-30% Martensitic matrix with over 60% Cr7C3 type carbides. Hardness: Macroscopic hardness of alloy layer: HRC 57-65. Carbide hardness: HV 1400-1800. Wear Resistance: 20-25 times more wear-resistant than low carbon steel. 8-12 times more wear-resistant than stainless steel and high manganese steel. Over 1.5 times more wear-resistant than general high carbon high chromium wear-resistant steel plates. High Temperature Resistance: Ordinary type: < 600℃. High-temperature type: < 1000℃. Impact Resistance: Wear-resistant alloy layer is metallurgically bonded with the substrate. Resistant to strong impacts without risk of delamination. Machinability: Can be welded, cut, curled, and punched. Connectability: Welding:  Base layer steel plate can be welded into various structural parts or components. Mechanical Connection:  Plasma cutting can be used to punch holes in the composite steel plate for
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