I work on electronics and woodworking and Phillips are the utter worst of both of them. The thread lock in computers makes them easy to strip when unscrewing. The resistance of driving them into wood makes them guaranteed to strip when screwing. Fuck them.
Maybe I’m just being lucky but I’ve never experienced screws stripping anymore since I’ve started getting better tools for myself.
And in woodworking it can also help to pre-drill a hole using your smallest drill, before screwing a screw in. This also prevents the wood from cracking.
I’ve also seen wood screws that have some lubrication pre-applied.
The problem is, when working with electronics, you can have a great screwdriver but it won’t help if the screws in the device are very cheap (and probably partially stripped already from someone opening it previously).
I’ll be honest that I’ve never really experienced problems like that before. I’ve had cheap screws and partially stripped screws. But so far I’ve always been able to open them with the right screwdriver.
But I believe you when you say you did and maybe you have a lot more experience than I do so I’ll respect your opinion.
I haven’t had any completely fail yet, but I’ve seen some come worryingly close. I don’t really have all that much experience, but from what I’ve seen it just doesn’t seem like the most reliable design.
The big issue I see with people driving Phillips screws is that they don’t use a large enough driver size. Computer screws for example are Phillips #2 and I’ve never had an issue with them stripping.
I use the correct driver, I’ll go through my kit to find the best fitting bit. It simply comes down to the fact they are designed to strip to avoid “catastrophic failure”. Plus the fact that companies use intentionally cheap, soft screws, to make repair and service harder. Cough cough zinc screws on a $10,000 iMac (steel screws would have cost 25 cents for 10, zinc like 5 cents for 10, fucking ridiculous).
I always figured it was intentional but for the other reason: screws soft enough that overtightening can’t damage/crack the multi-thousand dollar components, the screw head cores out first.
I read that the thing about them being designed to strip to prevent worse failure is just a myth. Or at least they weren’t originally designed to. It said that the original patent never contained any feature for that. Wouldn’t surprise me though if modern companies do use screws designed to strip to prevent disassembly/repair.
I think originally the screws would cause the driver to cam out and stop driving if a certain amount of force is applied but the screws are so soft and cheap that the harder driver damages the screw head when it cams out.
I work on electronics and woodworking and Phillips are the utter worst of both of them. The thread lock in computers makes them easy to strip when unscrewing. The resistance of driving them into wood makes them guaranteed to strip when screwing. Fuck them.
Maybe I’m just being lucky but I’ve never experienced screws stripping anymore since I’ve started getting better tools for myself.
And in woodworking it can also help to pre-drill a hole using your smallest drill, before screwing a screw in. This also prevents the wood from cracking. I’ve also seen wood screws that have some lubrication pre-applied.
The problem is, when working with electronics, you can have a great screwdriver but it won’t help if the screws in the device are very cheap (and probably partially stripped already from someone opening it previously).
I swear I’ve had stuff with stripped screws right from the store.
I’ll be honest that I’ve never really experienced problems like that before. I’ve had cheap screws and partially stripped screws. But so far I’ve always been able to open them with the right screwdriver.
But I believe you when you say you did and maybe you have a lot more experience than I do so I’ll respect your opinion.
I haven’t had any completely fail yet, but I’ve seen some come worryingly close. I don’t really have all that much experience, but from what I’ve seen it just doesn’t seem like the most reliable design.
The big issue I see with people driving Phillips screws is that they don’t use a large enough driver size. Computer screws for example are Phillips #2 and I’ve never had an issue with them stripping.
I use the correct driver, I’ll go through my kit to find the best fitting bit. It simply comes down to the fact they are designed to strip to avoid “catastrophic failure”. Plus the fact that companies use intentionally cheap, soft screws, to make repair and service harder. Cough cough zinc screws on a $10,000 iMac (steel screws would have cost 25 cents for 10, zinc like 5 cents for 10, fucking ridiculous).
I always figured it was intentional but for the other reason: screws soft enough that overtightening can’t damage/crack the multi-thousand dollar components, the screw head cores out first.
That’s great, but then you can’t get your multi-thousand dollar component unscrewed anyway so what was the point?
I read that the thing about them being designed to strip to prevent worse failure is just a myth. Or at least they weren’t originally designed to. It said that the original patent never contained any feature for that. Wouldn’t surprise me though if modern companies do use screws designed to strip to prevent disassembly/repair.
I think originally the screws would cause the driver to cam out and stop driving if a certain amount of force is applied but the screws are so soft and cheap that the harder driver damages the screw head when it cams out.