How to determine the strength of a plastic staking joint

Sep 22, 2016 | InfraStake | 0 comments

Design engineers commonly ask me, “How strong will my staked joint be?” Usually, they are designing a plastic assembly that needs to be staked, and they need to know how to design the part so that it will be strong enough for their application. They are looking for a straightforward answer, like 450 N. If they know how strong one stake point will be, they can plan how many stake points they need and where to locate them. The good news is that we can estimate the answer, but first, let’s look at the elements of the design that affect the strength of the joint.

Really quick: if you don’t know much about plastic staking, click here for more information on the process.

First, the plastic material and its properties are the foundations for a stake point’s strength. Obviously, some materials have a higher tensile strength than others, and the presence of fillers (glass, talc, etc.) can impact that strength. A staked boss (or post) can only be as strong as the material that it is formed out of. Knowing the tensile strength of the material will help determine the next design aspect, size.

The cross-sectional area of the boss greatly affects the strength of the stake. In general, the larger the cross-section of the boss, the stronger the stake can be. Most bosses come in three different styles or shapes: solid round, hollow round, and rectangular. When talking about boss size, what really matters is the cross-sectional area of the boss. More cross-sectional area means more material holding the joint together.

Solid Round

Hollow Round


Boss height matters as well, but it should only be determined after the cross-sectional area is determined. A common misconception is that the taller the boss, the stronger the stake. This is not true. Too tall of a boss can actually cause a lot of issues. The height should be proportional to the cross-sectional area. If the boss is too short, there won’t be enough material to adequately cover the joint. If it is too tall, there will be too much material to heat, melt, and form, causing long cycle times and messy results. A good rule of thumb is to target a 1:1 ratio between the height (above the mating surface) and the diameter of the boss.

Lastly, the size of the hole that the boss protrudes through is very important and often overlooked as a factor in joint strength. In general, a smaller through-hole will produce a stronger joint. In a tensile test on a staked boss, a larger through-hole creates a longer moment arm pushing up on the edge of the staked head. This means higher stress and quicker failure of the joint. So if you need a strong joint, keep the through-hole small. Target 10% larger than the diameter of the boss.

Estimating joint strength is easy once you have an optimized design. A properly designed stake joint should be able to achieve parent material strength. In other words, in a tensile test, it should fail along the cross-section of the boss. To estimate the joint strength, simply multiply the tensile strength of the material by the cross-sectional area of the boss. If you want to play it safe, factor the result by 80%.

Now all of this assumes that the process to stake the boss is set up properly and is optimized so that the material is heated and softened enough to re-flow easily into the staked shape. If the process is too aggressive, all bets are off; there will be stress in the joint and the estimated strength won’t be accurate. In any situation, it is highly recommended that you confirm your calculations with real-world testing.

Now you know how to determine the strength of a plastic staking joint. Was it easier than you thought? Let me know in the comments section below.

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Jason Dornbos

Jason Dornbos

Marketing Communications Manager

Jason is a mechanical engineer with valuable experience in hands-on plastics joining experimentation. He's a passionate problem-solver and communicator. He also challenges anyone to a game of foosball.