Tik-tak, Click-clack, Bump-thump and million of other noises your mechanical keyboard can make. For some a feature and others a nuisance. They would keep their distance or tell you to throw it away, but Stop! There are ways to dampen your mechanical keyboard noises.
It's not uncommon for people that are convinced to buy a mechanical keyboard and narrowed down the mechanical switch to underestimate the noise it can make... for others. Once you start typing, it sounds like music in your ears, a perfect rhythm of up following keystrokes magically creating text in front of you, but to others, it might sound as inconsistent, nerve wrecking and unending clacks. Similar to somebody playing League of Legends next to you, mouse clicking like there is no tomorrow.
Mechanical keyboards are best known for their (extremely satisfying) click-clack sound and it's considered part of the experience, but in a public environment, not everybody will be too happy about it. Especially if you use a mechanical keyboard with Cherry MX blue switches, those are literally engineered to make noise. So other than apologizing, what can you do about it?
What makes that click sound
There are different methods to dampen the sound, but first you need some keyboard knowledge to understand what's actually producing that sound.
Let's take the most popular switch brand on the market, Cherry MX switches, as an example. You know, that mechanism that defines mechanical keyboards. When you press the key all the way down, also known as bottom-out, the keycap stem will hit the switch box. This produces the infamous and most noisy "clack" sound. However, when you use Cherry MX blue switches there is another sound produced by the switch itself.
There is a small mechanism inside this particular switch that will produce an amplified "click sound. Furthermore, if you use particular thick keycaps, such as ABS double-shot or PBT keycaps, it will alter the sound produced. That leaves one last factor that can influence the sound of your keyboard, PCB or plate mounted switches. The plate mounted holds the switch firmly in its place, while PCB mounted will flex a bit and thereby reducing the sound vibrations.
We could go further into this and how the build quality of a keyboard can further influence the sound, but heck that would get too boring! So, now that we know all this, what does it mean? Well, that "clack" sound I mentioned earlier, you can dampen that sound with o-rings, soft pads or just, well, not bottom-out.
O-ring Rainbow Wonder
O-O-O-rings, are those lovely rubber rings that your dental orthopedist gives when you're walking around with metal in your mouth. Actually, that's exactly what you'll be using here, a small thick rubber ring that you can slide underneath the keycap on its stem.
The most common type of o-ring is the 40A-L, 40A-R and 50A-L. The numeric stands for the hardness of the rubber on the shore durometer (follow by letter) A scale. The last letter represents the thickness of the O-ring. R being twice the thickness of L.
Mind blowing right? OK, here comes the interesting part:
The O-ring will catch the blow between the keycap stem and switch, changing the "clack" sound into a less audible "thud" sound, but, yes, but, here comes the catch, the o-ring will also shorten the travel distance to bottom-out. That's where the thickness plays a role. It doesn't influence the sound but shortens the travel distance.
According to different sources, L will shorten the distance by 0.2mm and R by 0.4mm but I believe this is probably inaccurate, as many people feel that R bottoms-out half way actuation and L shortly after, which is strange considering bottom-out is at 4mm and actuation at 2mm.OK! Take a breather... It's a lot of detailed nerd information to take in, and yes we're still talking about keyboards.
WASD keyboards made a great sample video using all the different switches with O-rings.
Keyboard Soft Pads
You can imagine that installing o-rings is quite tedious. So a less popular alternative are soft(landing) pads, basically a piece a foam cloth you can place on the switch itself.
The effect will be the same, the foam catches the "clack" between the keycap stem and switch. Also, the travel distance is shorter, depending on the thickness. Just watch out you can only use them with Cherry MX or similar type of switches.
The feel, however, is different from o-rings. Elitekeyboard supplies the soft pads in a gray or black version, the latter being much stiffer similar to the 50A-R o-rings. Of course, you can easily make some DIY soft pads.
GMK Switch Clip
If you're more a neat type of person, then you might consider this clean solution from GMK electronic design, the QMX clip.
Basically, they're identical to the soft pad solution but glorified with a bracket you can click on the switch. Neat right?
The guy(s) from Keychatter.com made a nice sound sample video of it.
Other methods to sound dampen
So now that we've addressed immediate solutions to reduce the noise produced by the keyboard, there are also some external factors. Hold your breath, it's your table. If you're using a wooden or glass table, it will definitely influence the noise produced by the keyboard as it resonates all the key presses. An immediate fix for this is using a desk/mousepad or placing a towel underneath the keyboard or anything that can absorb vibrations. Sexy right? Personally, I would just recommend buying a Topre switch keyboard, they are already much more silent thanks to its rubber attribute. But I'm extremely biased at the moment.
Now you're a qualified Keyboard Ninja
Well, as in, you know how to get around silently and not to disturb anybody in your surrounding. All the dampen methods might help reduce noise by 10 dB, but it will never be unnoticeable and it shouldn't. Every keyboard will have its particular sound and with a mechanical keyboard, the sound is specifically a satisfying feeling.You could also choose to make one of the upgrades to change the feeling of the keyboard, by shortening the distance.
Do you have any tips or tricks?
You're welcome to share any tips, tricks or your opinion.