Clad construction: for large process vessels operating at severe pressure and temperature, the corrosion-resistant cladding is typically what percentage of the total wall thickness?

Chemical Engineering Process Equipment and Plant Design Difficulty: Easy
Choose an option
  • A
    1 to 5
  • B
    10 to 20
  • C
    30 to 40
  • D
    40 to 50

Answer

Correct Answer: 10 to 20

Explanation

Introduction / Context:To resist corrosion without the expense of a full-thickness alloy wall, heavy vessels are frequently built as carbon steel base metal with a corrosion-resistant cladding (stainless steel, nickel alloys, titanium, etc.). Understanding the typical cladding percentage helps with preliminary thickness budgeting, cost estimating, and material selection before detailed code calculations.

Given Data / Assumptions:

  • Large pressure vessels or reactors under high temperature/pressure and corrosive service.
  • Cladding applied by roll-bonding, weld overlay, or explosion bonding.
  • Wall thickness meets code; cladding provides corrosion resistance, not primary strength.

Concept / Approach:Cladding thickness is chosen to ensure adequate corrosion allowance, fabrication tolerances, and future repairs while minimizing alloy cost. Industry practice places cladding around a modest fraction of total thickness. Too thin a layer risks through-clad defects or rapid wastage; too thick rapidly drives cost and residual stress issues during fabrication.

Step-by-Step Solution:

Define total wall thickness = base metal + clad.Choose clad fraction to provide corrosion protection and maintain structural integrity of the base.Adopt typical design practice: cladding ≈ 10–20% of total thickness for many severe services.

Verification / Alternative check:Shop standards and owner specifications often require a minimum clad thickness (for example, several millimeters) which, for common total wall thicknesses, corresponds roughly to 10–20%.

Why Other Options Are Wrong:

  • 1–5%: Often too thin for reliable service, repair grinding, or corrosion allowance.
  • 30–40% or 40–50%: Excessively costly and rarely necessary; the base metal is intended to carry pressure loads.

Common Pitfalls:Assuming clad contributes to pressure strength; neglecting dissimilar-metal weld qualifications; overlooking differential thermal expansion causing disbonding risks.

Final Answer:10 to 20

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