High-impact shipping and handling does happen, especially in high-risk locations. There are certain risks, however, that come with this type of shipping.
Drops from heights are one example. Though regular packaging has some bit of toughness to it, some of the high-octane shipping and handling packaging may be dropped from excessive heights, ruining the items inside.
Another big part is that vibrations during freight can harm the interior compartments, especially if there's electronics inside, and that can ruin the items inside.
Then, there is tilt mishandling, which is where the item might be tilted when it should not be, impacting the items that are inside.
Intelligent Shock Absorption
When putting together packaging that’s gravity resistant in a way that it’s hardy, you want to add some materials that will wear the shock.
Gel pockets are one example. This type of packaging will help to cushion what’s inside, making it better for shipment.
Magnetic suspension layers is another example, where the magnets will suspend and hold the items inside, improving the strength and formidability of such items.
Then, their foam-lattice cores, which are cores made with a foam lattice that will keep it from getting ruined during the shipment and shocks that come with this.
Supplies for Aerospace and Offshore Transport
A lot of times, you’re building this for certain situations, especially those that are going to be transported to rougher areas.
Oil rigs are one example, because you’re going to be in an offshore area, and you need to have supplies that resist the vibrations from drilling.
Another is aircraft cargo. Aircraft cargo is one example of this, because again, you’ve got the vibrations to worry about and consider.
There's also space experimentation kits, which are used to look at and investigate space. Again, all of these are made with the idea of going to highly difficult locations, and also improving the shipping tactics from this.
Test Standards for Stress-free shipping
There’s a few tests that are used for this. MIL-STD will look at the way the drop rate and strength is in place when putting this together.
The ISTA drop tests and procedures do determine how strong the packaging is, and also will analyze various other aspects of this packaging, including of course, how much stress the package can handle either through dropping, crushing, or folding before it ends up buckling.
The third type of way is analyzing the packaging physics of such items, including whether or not the corners are made a little bit flatter and kept together, or if there's any sort of clearance between the package and the edges, which might create a problem for the packaging itself.
Using these tests and standards is not just a good idea for the here and now, but also offers some extreme-handling for this type of packaging, improving the engineering for all sorts of scenarios and situations.
Resisting gravity is not just good for the packaging, but it can offer some breakthrough prototypes for your packaging and experiences. You might see this with some industrial materials, such as metal, various aluminum paneling, and the like. A lot of spacecraft also use this type of packaging, especially for very sensitive tools. You also see this in some industrial activities that happen offshore or deep in the water, such as deep drilling and the like.
Overall, resisting gravity with your packaging is a way to ensure that your packaging stays useful, and effective on all fronts, so it’s worth looking into, especially if you’re a company that takes pride in their packaging, and the ability to keep everything aligned.
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