The (Less intimidating) Watch Thread
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I've never had a problem. It has never occurred to me to worry about it, springbars are cheap.
And I would really prefer a springbar failure over a pin that locks in place. A pin that's locked up will eventually rip out the hole in the lug if you apply force to it.
$3 part vs expensive repair (if can be fixed at all)
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I’ve had this watch for the last few months and can personally attest it’s tough as shit. Couple hundred miles running, three rock climbing sessions, three weeks of travel, two rifle training sessions (which include runnning/climbing/hitting the dirt/slamming into things) and 7k rounds of ammo (around 2k at the courses and another five of practice) downrange and it’s doing just fine. I put on a glass screen protector so I never worry about damaging the crystal.
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I need a G Shock. Thank you for the recommendation
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I can’t find my g shock. I’m sick to my stomach. Fucking love that thing. ReAlly hope It turns up.
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It actually says in the manual to not go swimming to any depth that requires an oxygen tank.
With that being said, you can see search and rescue divers wearing G-Shocks all the time in photographs.
I suspect it's because most models don't have a screw on caseback. They use casebacks with four screws and a gasket.
From the Thailand cave rescue (left photo):
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You’re such an ISO
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https://en.wikipedia.org/wiki/Diving_watch
While many watches can go diving, I think it's good that there is a standard for dive watches. You can throw a grandfather clock into the ocean but that doesn't make it a dive watch.
You can bounce on your dick but it doesn't make it a pogo stick.
Jeggings identify themselves as jeans. Iron Heart self identifies itself as jeans. That does not make them the same and equivalent.
It is unwise to devalue the meaning of words. I'm dealing with that in my workplace right now.
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Watches also started using the term "water resistant" rather than "waterproof" years ago, in recognition of the fact that eventually, water will get in.
Which goes along with Doug's point about using proper terminology…
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I've always taken it to mean that I could chuck a watch in a bowl of water, leave it for days, and it would likely not let water in.
Take it 200m under water, and pressure not simply 'water' (water x pressure = letting in water) will cause the damage.
Thankfully I don't do any sort of activity that requires that degree of water resistance, and as a rule I don't forget to take my watches off before I have a shower
My Hamilton, Seiko, and G Shock serve my needs just fine at the moment. I didn't check that with any regulatory bodies
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The ISO standard is not just about water resistance. I don't recall the details but it includes a lumed second hand, so that you can be sure that the watch is not stoped while UW. It also needs a unidirectional rotating bezel. It's a whole series of things that made sense when watches were key diving instruments, which they aren't anymore.
Diving watch <> watch you can dive with
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Copied from my previous Wikipedia link:
The standards and features for diver's watches are regulated by the International Organization for Standardization in the ISO 6425 standard; German Industrial Norm DIN 8306 is an equivalent standard. Besides water resistance standards to a minimum of 100 m depth rating ISO 6425 also provides minimum requirements for mechanical diver's watches (quartz and digital watches have slightly differing readability requirements) such as:[20]The presence of a unidirectional bezel with at least at every 5 minutes elapsed minute markings and a pre-select marker to mark a specific minute marking.
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The presence of clearly distinguishable minute markings on the watch face.
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Adequate readability/visibility at 25 cm (9.8 in) in total darkness.
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The presence of an indication that the watch is running in total darkness. This is usually indicated by a running second hand with a luminous tip or tail.
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Magnetic resistance. This is tested by 3 expositions to a direct current magnetic field of 4,800 A/m. The watch must keep its accuracy to ± 30 seconds/day as measured before the test despite the magnetic field.
- Shock resistance. This is tested by two shocks (one on the 9 o'clock side, and one to the crystal and perpendicular to the face). The shock is usually delivered by a hard plastic hammer mounted as a pendulum, so as to deliver a measured amount of energy, specifically, a 3 kg hammer with an impact velocity of 4.43 m/s. The change in rate allowed is ± 60 seconds/day.
- Chemical resistance. This is tested by immersion in a 30 g/l NaCl solution for 24 hours to test its rust resistance. This test water solution has a salinity comparable to normal seawater.
- Strap/band solidity. This is tested by applying a force of 200 N (45 lbf) to each spring bar (or attaching point) in opposite directions with no damage to the watch or attachment point.
- The presence of an End Of Life (EOL) indicator on battery powered watches.
- Testing diving watches for ISO 6425 compliance is voluntary and involves costs, so not every manufacturer present their watches for certification according to this standard.
- Strap/band solidity. This is tested by applying a force of 200 N (45 lbf) to each spring bar (or attaching point) in opposite directions with no damage to the watch or attachment point.
- Chemical resistance. This is tested by immersion in a 30 g/l NaCl solution for 24 hours to test its rust resistance. This test water solution has a salinity comparable to normal seawater.
- Shock resistance. This is tested by two shocks (one on the 9 o'clock side, and one to the crystal and perpendicular to the face). The shock is usually delivered by a hard plastic hammer mounted as a pendulum, so as to deliver a measured amount of energy, specifically, a 3 kg hammer with an impact velocity of 4.43 m/s. The change in rate allowed is ± 60 seconds/day.
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