Fabrication rule of thumb: for plain carbon steel vessels, butt-welded joints are typically used when the shell plate thickness is less than or equal to approximately how many centimeters?
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A1.2
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B0.5
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C3.8
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D6.8
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E0.25
Answer
Correct Answer: 1.2
Explanation
Introduction / Context:Pressure vessel construction uses different joint types depending on plate thickness, fabrication practicality, and code requirements. For thin to moderate shell plates in plain carbon steel, butt-welded joints are common and economical, providing good strength and inspectability. As thickness increases, bevel geometry, weld volume, preheat, and distortion control become more demanding.
Given Data / Assumptions:
- Plain carbon steel shell plates for typical process equipment.
- Interest in a practical threshold where butt-welded joints are commonly applied.
- Rule-of-thumb guidance rather than a mandatory code limit (actual projects must follow code and WPS).
Concept / Approach:Thin plate sections are routinely joined by full-penetration butt welds with manageable heat input and distortion. Around a centimeter of thickness represents a convenient upper bound for “easy” butt-weld fabrication on many shop floors before special procedures and increased weld volume raise cost and complexity. The referenced choice reflects an indicative threshold used in many instructional contexts.
Step-by-Step Solution:
Relate joint selection to thickness: thinner plates favor butt welds.Identify a commonly cited cutoff in teaching examples: about 1.2 cm.Conclude that for ≤ 1.2 cm, butt-welded joints are typically used for plain carbon steel shells.Verification / Alternative check:Shop practices and educational problem data often use ~12 mm as a practical benchmark; exact limits vary by code, service, and fabricator capability.
Why Other Options Are Wrong:
- 0.5 cm is overly restrictive; butt welds are common above this.
- 3.8 cm and 6.8 cm enter heavy-plate territory requiring substantial weld prep and may favor different joint details or segmental construction.
Common Pitfalls:Confusing rules of thumb with code requirements; ignoring impact toughness, PWHT, and NDE that also influence joint selection.
Final Answer:1.2