The five people on the board who enjoy watches may know this already but I got bored.
Different materials are used for watch crystals. In most cases, a watch crystal can be replaced with an identical one or with an upgraded one. For example, you can go from a mineral crystal to a sapphire crystal. Sometimes, a watch may be available with different crystal choices.
Quartz glass: optically very clear, low expansion, chemically resistant, not very scratch resistant, fragile, can shatter into shards.
Celluloid, a bio-plastic, a carry-over from late 19th-century pocket watches: degrades over time and changes from clear to yellow or blue/green, does not resist heat well, is highly flammable, develops crazing with age
Acrylic beginning in the 1920s: shatter-resistant but very soft and scratches easily. Light scratches can be buffed out with plastic polish like Polywatch. Chemically not very resistant. Goes by names like Hexalite (Omega). Replacement is cheap.
synthetic sapphire since the 1930s: Most scratch-resistant but less hatter-resistant than mineral glass, although modern sapphire crystals do not shatter easily. Sapphire is naturally less prone to reflections than mineral glass. More costly than mineral glass but not prohibitively so. Scratches can’t be removed by the layman.
Mineral glass and high-strength mineral glass since the 1970s: this tempered glass is a good compromise between scratch-resistance and shatter-resistance. Goes by names like Hardlex (Seiko). You may be able to remove hairline scratches with glass polish. Replacement is cheap.
Resin, probably since the '80s: scratches easily but shatter-resistant. Found mostly in cheap watches that have the case and crystal injection molded in one piece. Think cheap Casio watches with non-replaceable crystals.
Sapphire-coated mineral glass. I'm not sure when these crystals first appeared but I'm thinking 1970s: has the shatter resistance of mineral glass with increased scratch resistance. Goes by names like Sapphlex and Flame Fusion. Layering affects optical clarity negatively. The coating can delaminate and is not really superior to hardened mineral glass.
In short:
Mineral glass offers a good compromise between price, scratch, and shatter resistance.
Sapphire crystals are a premium option and from what I can tell shatter resistance is now close to that of mineral glass
Acrylic is best when a very particular look is required that only acrylic can give. The shatter resistance is offset by its non-existent scratch resistance but YMMV.
Resin is fine for beater watches
Crystal coatings:
Anti-reflective coatings are either clear or impart a color, often blue. Hydro and oleophobic coatings keep the crystal free from smudges and water/sweat droplets until the coating wears off over the years
Coatings are either on the top of the crystal, on the underside, or on both sides. On both sides offers the least reflections but the outside coating will eventually get damaged which looks ugly. The coating can be easily removed with a glass polishing compound. I prefer an anti-reflective coating on the underside of the crystal as it will never wear off.
Acrylic/resin watch crystal polishing compound
Different materials are used for watch crystals. In most cases, a watch crystal can be replaced with an identical one or with an upgraded one. For example, you can go from a mineral crystal to a sapphire crystal. Sometimes, a watch may be available with different crystal choices.
Quartz glass: optically very clear, low expansion, chemically resistant, not very scratch resistant, fragile, can shatter into shards.
Celluloid, a bio-plastic, a carry-over from late 19th-century pocket watches: degrades over time and changes from clear to yellow or blue/green, does not resist heat well, is highly flammable, develops crazing with age
Acrylic beginning in the 1920s: shatter-resistant but very soft and scratches easily. Light scratches can be buffed out with plastic polish like Polywatch. Chemically not very resistant. Goes by names like Hexalite (Omega). Replacement is cheap.
synthetic sapphire since the 1930s: Most scratch-resistant but less hatter-resistant than mineral glass, although modern sapphire crystals do not shatter easily. Sapphire is naturally less prone to reflections than mineral glass. More costly than mineral glass but not prohibitively so. Scratches can’t be removed by the layman.
Mineral glass and high-strength mineral glass since the 1970s: this tempered glass is a good compromise between scratch-resistance and shatter-resistance. Goes by names like Hardlex (Seiko). You may be able to remove hairline scratches with glass polish. Replacement is cheap.
Resin, probably since the '80s: scratches easily but shatter-resistant. Found mostly in cheap watches that have the case and crystal injection molded in one piece. Think cheap Casio watches with non-replaceable crystals.
Sapphire-coated mineral glass. I'm not sure when these crystals first appeared but I'm thinking 1970s: has the shatter resistance of mineral glass with increased scratch resistance. Goes by names like Sapphlex and Flame Fusion. Layering affects optical clarity negatively. The coating can delaminate and is not really superior to hardened mineral glass.
In short:
Mineral glass offers a good compromise between price, scratch, and shatter resistance.
Sapphire crystals are a premium option and from what I can tell shatter resistance is now close to that of mineral glass
Acrylic is best when a very particular look is required that only acrylic can give. The shatter resistance is offset by its non-existent scratch resistance but YMMV.
Resin is fine for beater watches
Crystal coatings:
Anti-reflective coatings are either clear or impart a color, often blue. Hydro and oleophobic coatings keep the crystal free from smudges and water/sweat droplets until the coating wears off over the years
Coatings are either on the top of the crystal, on the underside, or on both sides. On both sides offers the least reflections but the outside coating will eventually get damaged which looks ugly. The coating can be easily removed with a glass polishing compound. I prefer an anti-reflective coating on the underside of the crystal as it will never wear off.
Acrylic/resin watch crystal polishing compound
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