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| Brand Name: | YUHONG |
| MOQ: | 1pc |
| Price: | Negotiation |
| Delivery Time: | According to the quantity |
| Payment Terms: | T/T, L/C |
ASME SA36 Baffle | Carbon Steel Heat Exchanger Plate Component
What is baffle plate?
Baffle plates are critical components in shell-and-tube heat exchangers, designed to enhance heat transfer efficiency and optimize fluid flow. They are strategically placed within the shell side of the heat exchanger to direct the flow of fluid, improve turbulence, and support the tubes.
1. Material Specifications
Standard: ASME SA36 (Carbon Steel for Structural Applications).
Scope: Covers carbon steel plates, bars, and shapes for structural use.
Grade: SA36 is a single-grade material with standardized chemical/mechanical properties.
Limitations: Not inherently corrosion-resistant; suitable for non-aggressive service environments unless coated.
2. Chemical Composition (ASTM A36 ≈ ASME SA36)
Element Maximum % (unless stated)
Carbon (C) ≤ 0.26%
Manganese (Mn) ≤ 0.80–1.20% (based on thickness)
Phosphorus (P) ≤ 0.04%
Sulfur (S) ≤ 0.05%
Copper (Cu) ≥ 0.20% (if required for corrosion resistance)
3. Mechanical Properties
Tensile Strength: 400–550 MPa (58,000–80,000 psi).
Yield Strength: ≥ 250 MPa (36,000 psi).
Elongation: ≥ 20% (in 200 mm gauge length) or ≥ 23% (in 50 mm).
Hardness: Typically ≤ 180 HB (Brinell).
4. Baffle Plate Design Requirements
Function: Direct shell-side fluid flow, support tubes, and reduce vibration.
Types: Segmental (single/double), helical, disc-and-doughnut, or orifice baffles.
Thickness: Typically 3–12 mm (varies with shell diameter and pressure).
Cut Percentage: 20–45% (segment height depends on flow and pressure drop requirements).
Spacing: Determined by TEMA (Tubular Exchanger Manufacturers Association) standards (e.g., 20–100% of shell ID).
5. Fabrication Requirements
Cutting: Plasma, laser, or waterjet cutting to minimize distortion.
Tolerances:
Thickness: ±10% of nominal thickness.
Flatness: ≤ 3 mm/m.
Hole Diameter: ±0.5 mm for tube holes (if drilled).
Surface Finish: Smooth edges to prevent fouling; burr-free.
Welding: SA36 is weldable using common methods (SMAW, GMAW). Post-weld stress relief may be required for thick plates.
6. Corrosion Protection
Coatings: Epoxy, galvanization, or rubber lining (if exposed to corrosive fluids).
Design: Baffle edges should avoid sharp corners to reduce erosion.
7. Standards Compliance
ASME BPVC: If the baffle is part of a pressure boundary, ensure compliance with ASME Section II (Materials) and Section VIII (Pressure Vessels).
TEMA: Follow TEMA Class R/C/B guidelines for baffle spacing, orientation, and tolerances.
8. Key Considerations
Thermal Expansion: Ensure compatibility with shell/tube materials to avoid stress.
Vibration Mitigation: Proper baffle spacing reduces tube vibration.
Pressure Drop: Optimize baffle cut and spacing for efficiency.
Inspection: Dye penetrant (PT) or ultrasonic testing (UT) for critical applications.
9. Applications
Suitable for low-to-moderate temperature/pressure services (e.g., water, oil, steam).
Avoid in highly corrosive environments (e.g., acidic/alkaline fluids) without protective coatings.
ASME SA36 baffle plates are cost-effective for structural and thermal roles in shell-and-tube heat exchangers. Ensure compliance with TEMA/ASME standards, and evaluate corrosion risks based on service conditions. For harsh environments, consider upgrading to higher-grade materials (e.g., SA516 for pressure applications).
