• misses in the coating caused by air locks preventing molten zinc contacting the steel surface.
• puddling of zinc in corners, wasting zinc and interfering with subsequent assembly
• ash trapped on zinc surface causing surface defects
• irregularities in surface appearance caused by erratic immersion and withdrawal because of item floating or trapping zinc internally
• thick zinc runs on surface caused by zinc freezing during draining
• steel is only about 15% heavier than zinc. A relatively small amount of air trapped inside a hollow section will prevent the section from sinking in the molten zinc
• any water trapped inside a hollow section will expand 1750 times its original volume as steam and generate pressures as high as 50 MPa (7250 psi).
BASIC VENTING RULES
• no vent hole should be
smaller than 8 mm• the preferred minimum size is 12 mm
• about 200 grams of zinc ash will be produced for each square metre of steel surface galvanized.
This ash is a solid powder and will not pass through small openings. Venting large internal areas required larger vent holes to allow ash to escape
• hollow vessels require 1250 mm2 of vent hole for each cubic metre of enclosed volume. This
means that a 40 mm2 diameter hole is required for each cubic metre of volume
• hollow sections such as tube, RHS and SHS require minimum vent hole area equivalent to 25% of the section’ diagonal cross section
• vent holes should be at the edges of hollow sections
BASIC DRAINING RULES
• no drain hole should be less than 10 mm
• preferred minimum drain hole size is 25 mm
• large hollow sections ( tan
ks, pressure vessels) require a 100 mm diameter drain hole for eachcubic metre of enclosed volume
• drain holes should be at the edges of hollow sections.
• hollow sections such as tube, RHS and SHS require minimum drain hole area equivalent to 25% of the section’ diagonal cross section. The preferred design option is to leave the ends of tubes, RHS and SHS open.
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