Does Figure 1 bring back any memories of wasted time and money, or conjure up a notion that you could show me something even worse? Nozzle leaks are a serious problem, so let’s take a look at possible causes, what you can do to prevent leaks, and what you can do to detect them as soon as they occur.
The nozzle tip must form a seal against the sprue bushing so as to withstand high injection pressures with no leaks or injection unit push-back. Here are some causes/remedies of nozzle leaks:
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Low nozzle contact pressure
Machine specifications usually call out a nozzle contact pressure requirement of 4 to 10 tons of force. This contact pressure must counteract whatever injection pressure the machine can produce. Higher injection pressures require higher nozzle contact forces for any size machine. So for applications that use high injection pressure (greater than 22,500 psi), make sure your machine is not at the low end of this 4-10 ton range.
Be careful, as some in the industry believe that small machines require less nozzle contact force than large machines. Nozzle size and radii are the same for all machine sizes; the injection pressure sets the requirement for nozzle contact pressure, not the size or tonnage of the machine.
Hydraulic machines tend have fewer problems generating and holding this nozzle contact force, if they are specified correctly. And it is relative easy to check nozzle contact force by measuring the hydraulic pressure on the pull-in cylinder and checking it against the machine supplier’s specification.
Most electric machines generate nozzle contact force without the use of hydraulics and some have had issues with inadequate nozzle contact force. Further, there is no easy way to measure the contact pressure as there is with hydraulics. However, there is a quick approximate test with pressure-sensitive film between the nozzle tip and sprue bushing (see Fig. 2 as an example).
Too much nozzle contact area
The common belief is that the nozzle-tip radius should exactly match that of the sprue bushing. While this seems right, the best way to make a seal is with a small contact area, not a large one. The best seal is over a small area; but the forces here are enormous and most processors feel full-radius contact is needed to prevent hobbing the steel. I disagree. First, a better seal is formed with a small contact surface. Second, the larger the contact surface, the more heat loss there is with cold-runner tooling (which causes other problems like stringing). And third, the relatively high crush strength of P-20 steel. Trial a 3/8-in. to 1/4-in. contact ring on the inner surface of the sprue bushing to see if this improves the seal without hobbing or compressing either the tip or sprue bushing. See Fig. 2 “A” and “C”.
Contact force on nozzle-tip perimeter
Figure 2 “B” shows a radius mismatch of the nozzle tip to the sprue bushing. This promotes leakage and injection-unit push-back, as the injection pressure is applied to a large surface area of the nozzle to push the injection unit backward.
Misaligned injection unit & sprue bushing
Anytime you bring the injection unit forward, watch as it touches the sprue bushing. If the injection unit self-aligns (move up, down, or sideways), stop—this is a dangerous situation as it wears the nozzle tip or the sprue bushing. At some point they may not align properly, providing a path for the high-pressure plastic to jet toward you. Get maintenance to align the barrel with the sprue bushing.
Incorrect orifice size of nozzle, hot runner
The nozzle orifice on a hot-runner mold should be the same size or only slightly smaller than the hot-sprue-bushing orifice. Any area of the nozzle tip exposed to hot melt will see injection pressure trying to push the injection unit back.
Radius mismatch of nozzle tip, sprue bushing
Make sure you check that the radius on the sprue bushing matches the radius of the nozzle tip for proper mating.
Distorted or gouged nozzle tip
Both the sprue bushing and nozzle tip tend to get abused with use, acquiring gouges, burrs, grooves, or other distortions. As with nearly any aspect of injection molding, pay attention to the details.
Monitor cushion, watch nozzle contact position, and place a dial indicator on the sled to see if there is injection unit push-back during first- or second-stage injection.
Safety first: Nozzle-contact forces can damage the “A” plate if it’s not supported properly. Close the mold to ensure support of the stationary side before bringing the injection unit to nozzle touch. I’ve seen the nozzle-contact force bow or push off the “A” plate.
