MSI MEG Silent Gale P12: A dominant all-rounder for a price

Mounting and vibration measurement

The introduction to this article has been rewritten several times. The original versions resorted to describing the adverse events that caused the long-announced fan testing to be so dramatically delayed. But the text was always dreadfully boring… the important thing is that everything managed to make it to the start. But before the starting gun, come take a thorough walk around the track where the measurements will take place.

Mounting and vibration measurement

Naturally, each tested fan must first be properly mounted. With all that we want to measure, and with the kind of precision that is required for relevant measurements, even the smallest details matter. The whole mounting system is quite complex and we are happy to have fine-tuned it to maximum satisfaction. Even if it meant hundreds of hours of tinkering. What’s so complicated about it? There’s more.

The fans are installed to the multi-purpose bracket. The substrate is a 2 mm thick metal plate to which the fan is attached, or the fan is attached together with an obstacle (e.g. a filter, hexagonal grille or liquid cooler radiator).

Bracket for installing the fan and vibrometer sensor

For correct and always equal pressure, the fans are always tightened with the same force with a torque screwdriver. If this were not the case, joints and clearances in the assembly could arise, in short, uneven conditions with undesirable distortion. For example, also for vibration measurement. On top of the fan mount there is also a bracket for the three-axis vibrometer sensor. The latter is magnetically attached via a steel insert, on which the sensor exerts a force of one kilogram and, thanks to the stop, is also always in the same place and in the same contact with the rest of the structure. These are the basics in terms of repeatability of measurements.

In order to capture the intensity at the highest possible resolution, the tray of the holder cannot be too heavy and at the same time it must be strong enough not to twist. This would again cause various distortions. Therefore, we used a hard (H19) aluminium (AL99.5) plate for the construction of the holder, whose weight is just enough so that free movement is not significantly restricted.

To achieve the finest possible resolution for vibration measurement, soft rubber inserts are provided in the mounting holes through which the bracket is installed to the tunnel. And just behind these inserts are silent blocks with a very low hardness of 30 Shore. These are also used so that the vibrations of the fans don’t spread to the tunnel skeleton. If this were to happen, then for fans with more intense vibrations, this secondary noise component, which is not related to the aerodynamic sound of the fan, would also be reflected in the noise measurement results.

Sensitive mounting mechanism allows high-resolution vibration measurement while preventing vibrations from traversing to the wind tunnel skeleton

This is where it is good to have ideal conditions, even though they are unattainable in practice, because fan vibrations will always be transmitted to the case skeleton to some degree. But each cabinet will react differently to them, or rather the final noise level will depend on a number of factors, starting with the materials used. Therefore, it is a good idea to filter out this extra noise component in tests and in practice take into account the measured vibration intensities. The higher these vibrations are, the higher the noise addition has to be taken into account.

The silent blocks are naturally formatted to offset the bracket a bit from the rest of the tunnel, otherwise they wouldn’t make sense. This creates a gap that is sealed across the entire surface with a soft foam seal with closed cell structure (i.e., it’s airtight).

To prevent vibrations from passing through to the wind tunnel structure, there is a small gap between the fan bracket and the leading edge of the tunnel, which is sealed by a soft foam collar

To properly center the fan rotor in relation to the other elements, the bracket includes a protruding frame that follows the inner contour of the seal. And to make matters even more complicated, the frame with the tested fan is pressed against this seal by a small force of compression springs, which in turn is set with the highest possible resolution for vibration measurement in mind and at the same time so that sufficient pressure is generated to maintain a flawless seal.

Vibration is measured with a Landtek VM-6380 vibration meter. It records the vibration speed (in mm) per second in all axes (X, Y, Z). For quick orientation, we calculate a 3D vector from the measured values and graph the “total” vibration intensity. But you can also find your results if you are only interested in a specific axis.

The most complicated part of the tunnel is behind us, and we’ll move on in the next chapter. But we will still stay at the beginning of the tunnel, we will just turn to the peripheries on the sides.


  •  
  •  
  •  
Flattr this!

We wrote 7 years ago. Tests you may have overlooked

Some articles become obsolete faster, others are relevant for a long time. Such, more durable ones usually do not focus on a specific product, but on a topic as a whole, with a pinch of generality. Articles like this have always been given space around here, since the beginning of HWCooling, and it probably doesn’t hurt to bring them up again. Well, at least as part of this selection which would be a shame to miss forever. Read more “We wrote 7 years ago. Tests you may have overlooked” »

  •  
  •  
  •  

Noctua on measuring fan noise: Different angles, different results

Noise measurements are an extremely complex topic. Imagine you have ten different sound sources. The noise from each will radiate through the space in different ways, and measuring ‘which is the noisiest’ and coming up with a clear verdict on that is a really hard nut to crack. To give you a better idea, we’ve interviewed Noctua. Different measurement techniques yield potentially different and sometimes contradictory conclusions. Read more “Noctua on measuring fan noise: Different angles, different results” »

  •  
  •  
  •  

Noctua NF-A14x25r on a radiator. Tested with DIY frame

Due to the atypical spacing of the mounting holes for its format, the new Noctua NF-A14x25r G2 PWM fans cannot be installed in 140mm positions as standard. You need a conversion frame for that, and one such frame was designed, made and sent to us by an HWCooling reader. So, we were able to simulate and test one of the most anticipated fans of recent years (NF-A14x25 G2 PWM) already now. Read more “Noctua NF-A14x25r on a radiator. Tested with DIY frame” »

  •  
  •  
  •  

Leave a Reply

Your email address will not be published. Required fields are marked *