crwdns2933803:02crwdne2933803:0
crwdns2933797:0Arthur Shicrwdnd2933797:0crwdne2933797:0
crwdns2936043:0crwdne2936043:0 crwdns2933505:0crwdne2933505:0 Arthur Shi
- crwdns2933769:0crwdne2933769:0
- crwdns2933771:0crwdne2933771:0
- crwdns2933801:0crwdne2933801:0
crwdns2933807:0crwdne2933807:0
| - | [* black] Let's address the ''key'' concern on everyone's minds: do the new silicone implants work? |
|---|---|
| - | [* black] We |
| - | [* black] Mild success! The new keyboard design routed ''most'' of the powder towards the edge of the key and away from the delicate butterfly mechanism. |
| - | [* black] The membrane has a potential Achilles heel: it has perforations in the corners |
| + | [* black] Let's address the ''key'' concern on everyone's minds: do the new silicone implants work? Well, we conducted a highly scientific analysis: |
| + | [* black] We sprinkled some glow in the dark powder over the keys, mashed on them for a minute, and then carefully popped the keycaps off to see where the powder went. |
| + | [* black] ***Mild success***! The new keyboard design routed ''most'' of the powder towards the edge of the key and away from the delicate butterfly mechanism. |
| + | [* black] The membrane has a potential Achilles heel: it has perforations in the corners where the keycap clips to the butterfly mechanism. More on that later... |
| [* black] Compare that to last year's keyboard (2nd pic.), where a substantial amount of powder collected underneath the butterfly mechanism, waiting to build up enough to cripple the key. | |
| + | [* black] Multiple iterations of "sprinkle powder, type, remove keycaps" did result in a few particles appearing within the membrane. The biggest concentration remains safely tucked outside. |