Comparing Different Heavy Duty Rack Systems

When comparing different systems at face value, you see I-beam design, heavy-duty bolts, and structural bracing. It’s very easy to assume that all storage racks Singapore systems can manage the same weight– especially if the advertised steel dimensions and weight capacities are the same.

The reality, however, is that just like cars, you need to do more than knock the tyres to ensure you’re obtaining a racking system engineered to safely handle your needed weights over years of use. The racking you pick ought to consist of five vital design aspects: 50-KSI I-beams, A325 screws, a 100 percent load usage, fully soldered arms, and complete load-bearing cradles and racks (where relevant).

Use the Correct Tools in Your Heavy Duty Racking

For sturdy heavy duty shelfs, it’s essential to utilize solid links among parts. This is especially true in cantilever rack systems. Reason being, these systems offer unhampered storage space for long-loads. Regardless you should treat all heavy duty racking the same way in this regard.

The connections are crucial, and therefore you require to use the appropriate kinds of bolts. Don’t cut corners out on this expenditure, as they make an actual difference to the honesty of your metal shelfs.

Engineer Your Heavy Duty Metal Racks to 100% Load-Bearing

Your heavy duty metal racking requires to be able to deal with 100% load-capacity. Moreso, it requires to manage it for extended periods. This indicates that every rack should be able to load all it can. This is an essential aspect of great heavy duty metal racks.

Numerous specialists attempt to compensate for insufficient load-bearing designs on heavy duty racks. To do so, they will engineer the heavy duty racking for “typical loading”. This is less than 100% utilisation, and decreases their efficiency.

Pick Solid Shelf Materials

When it pertains to storing hefty materials, the form and kind of steel utilized for columns, arms, and rack beams dramatically affect the racking system’s performance. Hot-rolled, wide-flange, or standard-shape I-beams provide sufficient mass to handle high weights. They additionally resist damages from material handling devices.

Thin-gauge cold-rolled or roll formed steel depends on its shape to support the weight. Once this kind of steel is harmed, it becomes weakened and may no more sustain its designed weight capacity.

The soda can experiment shows this principle. When implemented meticulously, a tiny individual can stand on a soda can without squashing it– not because it’s exceptionally sturdy but because its design, in an undamaged state, can manage the weight. However, push a little dent in its side and the can will crumble under the equivalent weight.

The same concept applies to roll formed steel in racking. Its design can hold certain thresholds of weight, however the steel members are vulnerable to damage, which can compromise the racking system’s integrity.