Fate had conspired against me on this one. But Kharma was in my corner. I'd wanted one of these since they were released, but never had the spare cash to snag one. I was even presented with the chance to purchase any Omega watch at a staggering 70% off the retail price, but both my VISA and Amex cards were on life-support when this offer was made, so I had to pass on it.
The Omega Railmaster Co-Axial was released alongside the First Generation AquaTerra series in 2003 and it was a faithful re-issue of a classic Omega watch that was first released in 1957. Back then, the Railmaster was primarily pitched at engineers and other professionals who worked in close proximity to machinery emitting high magnetic fields and, as such, these watches contained an iron cover over the movement to protect against magnetic interference.
In the 1950s, Rolex had produced their legendary Milgauss model and IWC had recently released the Ingenieur in an effort to cater to this niche segment of professionals and also to show that they could produce a cutting-edge wristwatch that was robust enough to handle more than just the everyday activities of the nine-to-fivers.
Here's what a mid-Fifties IWC Ingeneur looks like;
Picture courtesy of https://monochrome watches.com |Watchtime Wedesnday - The History of the IWC Ingenieur
And here's the Rolex Milgauss from the 1950s, with its distinctive lightning-bolt second hand;
Picture scanned from "Vintage Rolex Sports Models: A Complete Visual Reference & Unauthorized History" Revised & Expanded Third Edition by Martin Skeet & Nick Urul, Schiffer Publishing, 2008
And this is a Fifties Omega Railmaster;
picture courtesy of www.chronocentric.com (special thanks to J. Wong)
Omega’s decision to re-introduce this classic design in a modern interpretation was a stroke of genius in my opinion. The dial is clear, sparse and sharp. With no date window, this watch is designed for those times when all you need is the time.
This Railmaster re-edition was released around 2003 and was soon available in three sizes. Initially, Omega released it in a 39.2mm and a 41mm diameter version, with the 36.2mm model arriving on the market soon after. I began to notice back in 2002 that some watch brands were bringing out larger and larger watches. I blame Breitling and, to some extent, IWC for this. It was these two brands that went beyond the standard 42mm sizing which had been the maximum diameter across most brands. And even then, this size was reserved for dive watches and chronographs. Most dressy watches were still being manufactured in a 36mm to 39mm case. This seemed to suit most people’s wrists.
The original 1950s Railmaster measured 38mm in diameter, which was slightly larger than the standard 35mm diameter of most watches back then. Thirty-five mil was considered the average, all-purpose size. However, here we are in the 21st Century and there aren’t many manufacturers that produce a men’s wristwatch with a 35mm diameter. Some brands have even begun to release watches in this size for the female market.
And so, the early part of this century saw most brands pushing dress watch sizing towards 40 millimetres. Omega was no different. Much of their dress watch range hovered at about 39mm. I should perhaps mention what I consider to be a dress watch, since my opinion differs from that of many other watch collectors to some extent. I view a dress watch as the kind of watch that most men wore throughout the 1950s and ‘60s. Plain designs, legible dials, and perhaps a little window with the date. All easily visible.
As far as I know, the original Railmaster was produced for only a short time, about three years or so. As such, these vintage Omegas are highly sought-after by watch collectors. Personally, I think Omega should have kept this watch in uninterrupted production, much like Rolex did with their Explorer model. Even though they have made various design changes to the Explorer since the 1950s, the DNA of the classic Reference 1016 model is still somewhat evident in the current iteration available today. In my opinion, the modern version positively ruins a classic design, but I'm certain that Rolex's sale figures would prove me wrong.
Anyway, back to the Railmaster that I'm reviewing here. But first, I should give a brief rundown of the movement that powers this wristwatch. Get comfy, folks, this may take a while.
A little word about the Co-Axial Escapement...
English watch-maker, George Daniels (1926-2011), was considered to be the finest horologist of the 20th Century. Sometime in the 1970s, he began working on a new kind of watch escapement. The escapement is the part of a watch movement which-...nah, I'm not even going to try to explain it in watch-making terms. Not because I don't think you'll understand it, but because I don't know it myself.
I don't know how it works, but I do know what it does. A main cause for any major deviation in the timekeeping of a wristwatch will usually have to do with friction, due to the breaking down or drying up of the lubricating oils used throughout the movement.
The part of a watch movement that suffers the greatest amount of friction is the escapement.
Here's a picture of what a normal wristwatch escapement looks like compared to the Daniels Co-Axial Escapement;
Basically, the pallet stones, which are attached to the pallet fork, are shaped in such a way as to significantly reduce the amount of friction that occurs within the escapement of the movement. This has a two-fold effect. Firstly, it considerably reduces the amount of oil required to lubricate this part of the movement and, secondly, this allows the watch to run accurately over a longer period of time, thus lengthening the service intervals required on the movement. Follow this link to an animation video over on www.timezone.com which shows how these two escapements differ;
http://people.timezone.com/library/horologium/horologium631670193290479607
The George Daniels Co-Axial Escapement was thought by many in the horological industry to be the greatest leap in watchmaking technology in 250 years. Yeah, that's right. Two hundred and fifty years.
From what I've heard in the watch industry over the years, Daniels shopped this new escapement design around to various watch-making houses and none of them showed much interest.
He continued utilising this design in wristwatches that he designed and built himself (from scratch) for collectors until The Swatch Group decided to implement his creation in some of the De Ville models of the Omega range in 1999. A limited edition run of 2,100 watches were made. A thousand in yellow gold, another thousand in rose gold, and one hundred models in Platinum.
Since it wasn't a completely new watch movement that Daniels had created, Omega used the pre-existing (and tried & tested) ETA Calibre 2892 as the foundation for fitting the Daniels Co-Axial Escapement to. This newly-modified watch movement was then given the Calibre 2500 designation. So confident was Omega of the reliability of this new movement that it stated that the Calibre 2500-fitted De Villes would require maintenance servicing every ten years, effectively doubling the service interval of current mechanical watch movements, which needed servicing every three to five years.
It is a truly elegant design. The pallet stones barely touch the teeth on the escapement pinion and escapement wheel. This is where the vast reduction in friction occurs and this is why this movement can go longer between servicing.
It has to be stated that the movement did indeed have some teething problems in its first few years. This is to be expected with any new technology, especially one that is retro-fitted to an existing technology. However, Omega technicians were able to regularly consult George Daniels for advice with regard to issues with the Calibre 2500 as they occurred, and he was more than able to make suggestions which corrected the initial problems. In recent years, Omega has revised the service interval recommendation down to six-to-eight years instead of the original ten, although I personally feel that one could still stretch a Calibre 2500 out to ten years without any issues.
Over the last three years or so, Omega has produced its own in-house movement with the Co-Axial Escapement totally integrated within the design. This new movement is the Calibre 8500. The brand has now returned to making its own calibres the way it used to during the Golden Age of Watchmaking in the 1950s and '60s.
George Daniels passed away in October 2011, yet he left behind a legacy in the world of horology that will be difficult to surpass.
Okay, that's enough (fractured) history for one day. And if there are any watchmakers reading this, my apologies for any and all technical inaccuracy. Hopefully, the links I've provided will explain it all better than I did.
As far as I know, the original Railmaster was produced for only a short time, about three years or so. As such, these vintage Omegas are highly sought-after by watch collectors. Personally, I think Omega should have kept this watch in uninterrupted production, much like Rolex did with their Explorer model. Even though they have made various design changes to the Explorer since the 1950s, the DNA of the classic Reference 1016 model is still somewhat evident in the current iteration available today. In my opinion, the modern version positively ruins a classic design, but I'm certain that Rolex's sale figures would prove me wrong.
Anyway, back to the Railmaster that I'm reviewing here. But first, I should give a brief rundown of the movement that powers this wristwatch. Get comfy, folks, this may take a while.
A little word about the Co-Axial Escapement...
English watch-maker, George Daniels (1926-2011), was considered to be the finest horologist of the 20th Century. Sometime in the 1970s, he began working on a new kind of watch escapement. The escapement is the part of a watch movement which-...nah, I'm not even going to try to explain it in watch-making terms. Not because I don't think you'll understand it, but because I don't know it myself.
I don't know how it works, but I do know what it does. A main cause for any major deviation in the timekeeping of a wristwatch will usually have to do with friction, due to the breaking down or drying up of the lubricating oils used throughout the movement.
The part of a watch movement that suffers the greatest amount of friction is the escapement.
Here's a picture of what a normal wristwatch escapement looks like compared to the Daniels Co-Axial Escapement;
Basically, the pallet stones, which are attached to the pallet fork, are shaped in such a way as to significantly reduce the amount of friction that occurs within the escapement of the movement. This has a two-fold effect. Firstly, it considerably reduces the amount of oil required to lubricate this part of the movement and, secondly, this allows the watch to run accurately over a longer period of time, thus lengthening the service intervals required on the movement. Follow this link to an animation video over on www.timezone.com which shows how these two escapements differ;
http://people.timezone.com/library/horologium/horologium631670193290479607
The George Daniels Co-Axial Escapement was thought by many in the horological industry to be the greatest leap in watchmaking technology in 250 years. Yeah, that's right. Two hundred and fifty years.
From what I've heard in the watch industry over the years, Daniels shopped this new escapement design around to various watch-making houses and none of them showed much interest.
He continued utilising this design in wristwatches that he designed and built himself (from scratch) for collectors until The Swatch Group decided to implement his creation in some of the De Ville models of the Omega range in 1999. A limited edition run of 2,100 watches were made. A thousand in yellow gold, another thousand in rose gold, and one hundred models in Platinum.
Since it wasn't a completely new watch movement that Daniels had created, Omega used the pre-existing (and tried & tested) ETA Calibre 2892 as the foundation for fitting the Daniels Co-Axial Escapement to. This newly-modified watch movement was then given the Calibre 2500 designation. So confident was Omega of the reliability of this new movement that it stated that the Calibre 2500-fitted De Villes would require maintenance servicing every ten years, effectively doubling the service interval of current mechanical watch movements, which needed servicing every three to five years.
It is a truly elegant design. The pallet stones barely touch the teeth on the escapement pinion and escapement wheel. This is where the vast reduction in friction occurs and this is why this movement can go longer between servicing.
It has to be stated that the movement did indeed have some teething problems in its first few years. This is to be expected with any new technology, especially one that is retro-fitted to an existing technology. However, Omega technicians were able to regularly consult George Daniels for advice with regard to issues with the Calibre 2500 as they occurred, and he was more than able to make suggestions which corrected the initial problems. In recent years, Omega has revised the service interval recommendation down to six-to-eight years instead of the original ten, although I personally feel that one could still stretch a Calibre 2500 out to ten years without any issues.
Over the last three years or so, Omega has produced its own in-house movement with the Co-Axial Escapement totally integrated within the design. This new movement is the Calibre 8500. The brand has now returned to making its own calibres the way it used to during the Golden Age of Watchmaking in the 1950s and '60s.
George Daniels passed away in October 2011, yet he left behind a legacy in the world of horology that will be difficult to surpass.
Okay, that's enough (fractured) history for one day. And if there are any watchmakers reading this, my apologies for any and all technical inaccuracy. Hopefully, the links I've provided will explain it all better than I did.
picture courtesy of Omega.I figured there ought to be one decent picture of the watch in this review.
This watch's full name is the Omega AquaTerra Railmaster Co-Axial. The case design is identical to the AquaTerra range which is part of Omega's Seamaster line-up of watches. The model number is 2504.52.00.
The particular model that I'm reviewing here was one that I sold to a great customer named Reese (not his real name) back in 2009. He rode a mountain bike and did a little mountain climbing in his spare time. And he wore this watch throughout all of it. Sometime last year, he had regretfully decided to sell this watch in order to thin down his collection. Because he's a true gent and stand-up guy, he called and offered me first-dibs on it.
How could I refuse? I didn't know if I'd ever get another chance at one of these in such clean condition, despite the minor scuffs added by his mountain climbing, and his price was fair, too. Very fair.
I snapped it up.
The Box
While I always appreciate a nice box for the watch, I sometimes prefer if it's not so flashy since it's just going to get packed away someplace. Omega make a nice box for their watches. I suppose it's all part of the cost. The nice thing about their boxes is that you can actually remove the insert that the watch sits in and then use the box to store other stuff, like M&Ms or pencils.
Most of their watches come housed in a nice red leather (actually, in twelve years of selling watches, I never thought to find out if they are genuine leather or vinyl) box. Some of the more expensive or limited edition models are usually presented in a polished woodgrain box.
I would be happy to include a photo of the box, but, as I mentioned above, it's packed away someplace. Anyway, a quick Googling of 'Omega red box' should bring up a tonne of photos.
Besides, I'm reviewing the watch, not the box.
So anyway, about the watch.
First things first, though- if you need a watch with a date window on the dial, stop reading now and go do something more important. This watch has no date display.
The Case
As stated above, this watch was available in three sizes, but Omega also brought out a staggering 49.2mm hand-wound version as well. Here it is, the Railmaster XXL, slaughtering my 6.5 inch wrist. Lousy photo taken with my iPod Touch back when I used to sell wristwatches;
How could I refuse? I didn't know if I'd ever get another chance at one of these in such clean condition, despite the minor scuffs added by his mountain climbing, and his price was fair, too. Very fair.
I snapped it up.
The Box
While I always appreciate a nice box for the watch, I sometimes prefer if it's not so flashy since it's just going to get packed away someplace. Omega make a nice box for their watches. I suppose it's all part of the cost. The nice thing about their boxes is that you can actually remove the insert that the watch sits in and then use the box to store other stuff, like M&Ms or pencils.
Most of their watches come housed in a nice red leather (actually, in twelve years of selling watches, I never thought to find out if they are genuine leather or vinyl) box. Some of the more expensive or limited edition models are usually presented in a polished woodgrain box.
I would be happy to include a photo of the box, but, as I mentioned above, it's packed away someplace. Anyway, a quick Googling of 'Omega red box' should bring up a tonne of photos.
Besides, I'm reviewing the watch, not the box.
So anyway, about the watch.
First things first, though- if you need a watch with a date window on the dial, stop reading now and go do something more important. This watch has no date display.
The Case
As stated above, this watch was available in three sizes, but Omega also brought out a staggering 49.2mm hand-wound version as well. Here it is, the Railmaster XXL, slaughtering my 6.5 inch wrist. Lousy photo taken with my iPod Touch back when I used to sell wristwatches;
At almost 50 millimetres in diameter, this watch takes no prisoners. It houses a Unitas 6497 pocket watch movement that was developed in the 1950s. This alone would explain its size. While I do think it's a great watch to wear on those days when one is feeling a little more flamboyant...
...those kinds of days could be few and far between. Still, if I were ever invited to The Mad Hatter's Tea Party...
Anyway, where was I? Oh, yeah, sizes. While the 39.2mm model would have worked quite well on my small wrist, I preferred the old-school styling of the 36.2mm version. Luckily for me, that's the size that my customer, Reese, was selling me. His wrists are a tad larger than mine, but he too prefers the olde worlde sizing of this model, since it harks back to the Golden Age of Watchmaking of the 1950s and '60s.
At thirty-six mil, it sits squarely on the middle of my wrist. I saw watch sizes get larger and larger over the ten-plus years that I sold wristwatches (man, there's a lot of repetitive info in these watch posts of mine!) and, if I've learned anything in that time, it is that you shouldn't worry about fashions and trends when it comes to something like a wristwatch.
Choose wisely and you'll have it a long, long time, so you may as well go for something that suits your height and build as well as your wrists. I have seen too many guys of average height walking around wearing some huge "Hey, everybody, look at me!!!" kind of watch that just doesn't suit them.
Yes, yes, I know, it's your money and you can spend it on whatever you like, but really, gentlemen, do you need some huge watch to announce that you've walked into the room? I prefer to rely on my personality to make an impression (good OR bad, depending on my mood).
Besides, over the past year or so, I've noticed a slight shift downward in watch sizing to more respectable dimensions for watches of similar look to the Railmaster. Pilot's watches, dive watches, yeah, they can look good if they're large, but a dressy, everyday watch like this one should be 40mm or under in diameter. Just my opinion. If you're up for it, then trawl through my earlier "How To Buy A Wristwatch" posts for more details about your wrist and your next watch. You're welcome.
The case of this watch is nicely finished, with both brushed and polished steel highlights used throughout. Notice how the lugs have an outer edge that's brushed steel, a flared section that's polished and an inner edge, next to the bracelet end-links, that's brushed.
The brushed steel case sides hold up fairly well after a few years of wear. The bracelet itself is a basic three-link design and this is given a brushed finish. I have found that brushed steel tends to hide scuffs and scratches a little better than polished steel.
Most well-made Swiss wristwatches use surgical-grade 316L stainless steel which tends to be extremely hypo-allergenic and corrosion-resistant. Rolex uses 904L, which is meant to be even more corrosion-resistant. However, let me ask you, if you ever spill something on your wristwatch that is so highly corrosive that your watch can survive it, shouldn't you be more worried about your wrist that the watch is clamped around?
ANECDOTE, from my days in the watch game;
INT: WATCH STORE-- AFTERNOON
The young man turns the Oris TT diver watch over and notices the see-through case-back of the watch.
YOUNG MAN
Can this watch withstand an
electro-magnetic pulse?
Teeritz sighs, ever-so-slightly.
TEERITZ
Do you plan on being any-
where where an electro-
magnetic pulse will be
detonated?
*****
The Railmaster, as well as the AquaTerra models on which this watch is based, is water resistant down to 150 metres, or 500 feet. That's pretty much more than you or I are going to need. This is due to the screw-down winding crown, which offers greater water resistance than a standard push-in crown found on most watches of this styling. The Rolex DateJust models have 100 metres water resistance. Rolex learned long ago that this amount of water resistance was more than adequate for almost any recreational water activities. It's certainly good enough for a day at the beach or snorkeling. So, 150 metres should be overkill for somebody like myself.
The original Railmaster of the 1950s was designed for professionals who worked in close proximity to high magnetic fields. As the name suggests, it was aimed at railroad engineers. Therefore, in order to withstand exposure to magnetic interference, the movement inside the case was covered by a thin plate of iron. The dial of the watch was also thicker to help protect against magnetism.
The modern version dispenses with the whole anti-magnetic side of things. This watch is a Railmaster in name and outward design only. Not that that bothered me any. Omega didn't make this new version in order to appeal to engineers. As with their AquaTerra series, the Railmaster also came fitted with a sapphire crystal case-back to showcase the movement inside the watch.
The Movement
The Calibre 2403 is another Omega movement equipped with the Co-Axial Escapement. Couple of things to mention about these movements used by Omega. Firstly, it is a movement supplied to Omega by ETA, a prominent Swiss watch movement manufacturer which supplies a vast number of Swiss and German wristwatch companies with movements. ETA and Omega are both owned by The Swatch Group. I got a lot of respect for The Swatch Group, since it pretty much rescued the Swiss watch industry about twenty years ago. As the Japanese Quartz Revolution pushed its way through the 1970s and '80s, quite a few Swiss companies couldn't compete with these mass-produced, cheap watches coming out of Japan. As such, many watchmaking companies went bust. Others merged, in order to stay in business, while others still, switched over from mechanical watch movements to battery-operated quartz ones.
Uh-oh, time for another digression. Here's a fascinating story about Zenith. I don't know why nobody's written a book about it. Zenith was one of Switzerland's oldest watch manufacturers, having been started up in 1865 by a 22 year-old named Georges Favret-Jacot. In 1969, Zenith released their famous El Primero calibre, the first automatic chronograph movement in the world. Prior to that, all wristwatches with stopwatch movements were hand wound. This particular calibre was used in the Rolex Cosmograph chronograph wristwatch up until around the turn of this century. You might not think that's a big deal, but, for a company that has always prided itself on the fact that it makes all of its movements in-house, Rolex's use of an out-sourced movement is a pretty big deal and was not common knowledge among watch enthusiasts.
Then, in the mid 1970s, Zenith was struggling financially and was bought out by Zenith Electronics of the US. The reason? They had the same name.
The auditors went in. Once they stepped into the workshops, the conversation went a little like this, but don't quote me;
Auditors- "What's all this stuff?"
Head of Watchmaking- "It's the equipment used to manufacture the mechanical movements for our wristwatches."
Auditors- "Mechanical?! No, no, no, this company's going electrical, with the expertise of Zenith Electronics behind it. Quartz watches from now on. You'd better believe it. Gonna beat the Japanese at their own game."
Head of Watchmaking- "But what of all this equipment? Where will it go?"
Auditors- "We don't care, as long as it's out of here by Friday. Get rid of it."
The watch technician then spent the next week taking all the machinery apart and attaching labels to each piece. He spent another couple of days transporting these pieces back to his house where he stored them for almost two decades.
Fast-forward to sometime in the 1990s when Zenith electronics sold their watchmaking division back to the Swiss and the former Head of Watchmaking contacted the new owners to say that he had all the machinery needed to manufacture mechanical watch movements again.
Imagine if Porsche destroyed all of their blueprints for the 911 twenty years ago. Sure, you could start from scratch, and you may end up with something better or worse than what you had before, but it just would not be the same. All of the lathes and machines required to manufacture all the parts of a complete watch movement were saved. This Head of Watchmaking at Zenith saved the company's history. And its future. And he had the technical know-how to teach the new batch of technicians at Zenith. I don't know why there isn't an entire hospital wing named after this guy, whose name I don't remember. I've got it written down somewhere. Fascinating story.
Anyway, the calibre used in this Railmaster is a base ETA calibre 2892a, modified to accept the Daniels Co-Axial Escapement. Now, I have spoken to many watch collectors over the years who snobbishly tell me that it's not a true in-house movement by Omega. BFD. I have always said that I don't care if there are two baby mice running on a treadmill inside my watch. As long as it runs accurately and/or doesn't cost an arm and a leg to service, that's all I ask from a watch movement. Since around 2008/09, Omega have returned to in-house production of watch movements with their totally in-house Calibre 8500 and its derivatives. These have been designed from the ground up to fully incorporate the Co-Axial Escapement.
I, for one, am glad that George Daniels got to see his technology used in a new, purpose-built watch calibre before he died. It was always Omega's intention to return to production of watch movements in-house. The cynics would argue that, in doing this, Omega wants to court a large piece of Rolex's customer base. Others say that Omega wanted to return to its watchmaking roots. I sit somewhere in the middle, with a slight lean towards the romantic notion of Omega going back to its watchmaking history.
The other thing to mention about the Co-Axial movement in my Railmaster is that it is COSC-certified. I've explained this before, so I'll try to be brief. Actually, I'm gonna go point form on this;
* The Swiss government runs something called the Official Swiss Chronometer Testing Institute, or COSC (Contrôle Officiel Suisse des Chronomètres) , as it's known to watch nerds like myself. This institute tests watch movements for accuracy.
* Any watchmaking company in the world can send its movements to COSC for testing.
* The watch movements are tested (outside of the case) continuously for fifteen days.
* In five different positions, since gravity can affect the running of a movement.
* Under three different temperatures, since fluctuations in temperature can affect the running of a movement.
* The movement is permitted to lose as much as four seconds per day.
* Or gain as much as six seconds per day.
* If it falls within this plus or minus range, it is considered 99.9% accurate (as accurate as you can get with a mechanical movement) and it is then given a Chronometer Certificate, which states that it has passed this level of testing.
Chronometer certification seems to be the direction that Omega have been heading in over the last few years. Fine by me. This particular model seems to hover around four seconds fast per day, so it sits well within the accepted range. Having said that, if I were really pedantic about it, I could place the watch down in a different position at night on my bedside table in an attempt to determine which resting positions cause the watch to gain time and which ones cause it to lose time. This way, I could manipulate the timekeeping over the course of a week. But I have better things to do with my time.
The Dial
The Railmaster's dial is an exercise in minimalism coupled with extreme legibility. For me, a wristwatch has to tell the time clearly beyond all else. While I have a few vintage Omega watches that are very nice to wear throughout the day, offering a clean and legible dial, the Railmaster is what I tend to wear when I want at-a-glance readability of the dial.Since my photos don't really do this dial justice, here's a detail from Omega's picture above.
Notice the raised section in the numeral '3' and the triangular marker next to it? It's loaded with a compound called SuperLuminova. It basically glows in the dark after exposure to either natural or artificial light. Once upon a time, watch manufacturers used something called Radium, which had radioactive properties. Radium was replaced with a less toxic compound called Tritium. Thankfully, a non-harmful solution was found in the form of SuperLuminova which, while it doesn't stay luminous in total darkness for years on end the way Tritium does, it does present no risks whatsoever to the wearer and, more importantly, the people who handle the watch dials all day long during manufacture.
The Railmaster dial has a healthy dose of SuperLuminova used on it. Each arrow-head hour marker and the triangles and numerals at the dial's cardinal points all have SL coatings. The hands are also in-laid with Superluminova, providing easy readability in very low-light conditions. You tend to find this amount of SuperLuminova on dive watch dials where legibility in low light is crucial.
I gave the dial a five-second burst from a torch (flashlight) and then placed the watch down on the bedside table for this shot below;
The SuperLuminova gives off a soft greenish glow which lasts most of the night. Not as long-lasting as Radium or Tritium, but a whole lot safer if strapped to your wrist for sixteen hours a day.
A quick word about the lack of date window. In my humble opinion, a date window would ruin the symmetry of this dial. The watch is better off not having a date display, despite the fact that many customers of mine considered no date on a wristwatch an absolute dealbreaker.
The dial itself isn't quite jet black. It actually reminds me of that deep dark charcoal grey that's similar in hue to that of a blackboard. Again, to me this helps give the watch an old-school (pardon the pun) look.
If I have a gripe about anything, it's the crystal. The watch has a sapphire crystal. It's nicely convex with a very finely bevelled edge. I just wish that Omega had given it an anti-reflective coating. While the dial itself is supremely legible, the crystal does reflect light that's bounced against it. An A/R coating would have made the watch look as if it had no crystal, thus making the entire dial stand out even more. My watchmaker friend tells me there's a mob interstate who can put an anti-reflective coating on this crystal, but I think I'll just leave it be.
As for the hands, they are perfect for this dial design and layout. The minute hand has a lume-filled arrow-head to help further distinguish it from the hour hand. The second hand mimics this with its luminous snake's-head with a longish lancette at its end. Aside from the curves of the numerals on the dial, the rest of this dial and hand layout is an example of sharp lines and jagged triangles. It is impossible to mistake the time on this wristwatch.
Two forty-five cannot be mistaken for nine-fifteen, etc.
The Railmaster's bracelet is a standard three-link arrangement, similar to the kind found on many other Omega models. This type of design is tried and tested, offering excellent strength and durability, along with very good fit on the wrist. The links themselves aren't too large and this allows for a fit which closely follows the curvature of the wrist. The bracelet itself is held together by a pin and tube system.
Each of those holes has a pin running across the width of the bracelet. Generally, about eight to ten links can be removed from a bracelet when sizing it to your wrist.
A small metal tube sits within a channel drilled through the middle link. The outer links are also drilled to allow a thin steel pin to run through them. The pin is as long as the width of the bracelet. This pin is hammered into the bracelet link and the tube in the middle link provides enough friction to hold it in place. In fact, for added grip, the tube has a slight crimp in it and the pins have a slight groove around their circumference. Once hammered into place, the crimp on the tube 'bites down' into the groove on the pin to hold it all together.
It's a good system, used by many other brands although over the long term, the pins may tend to wear out as the bracelet links swivel slightly while on the wrist. However, replacement parts are available from your local Authorised Omega Service Centre.
While I'm here, I might as well do a quick recap on bracelet and correct fit. Ideally, the six o'clock end of the bracelet should be shorter than the twelve o'clock end. This is to prevent the 'rolling' effect that can occur when you perform a simple twist if the wrist, like when you'd use a screwdriver or turn a door-knob. Your forearm is made up of the radius and ulna bones which do not turn in unison when you twist your wrist. If the bracelet is incorrectly adjusted, you end up with the case of the watch rolling towards the outer edge of your wrist. Best-case scenario, it gets annoying after a while. Worst-case, the watch presses against the bone and also puts added stress on the bracelet links. It's explained in a little more detail in my "How To Buy a Wristwatch" posts.
Another option is to put the watch on a strap. The Omega factory strap is a nice brown alligator which you might think doesn't work with the black dial of the watch, but it actually works quite well. It gives the watch an old-style look.
The Omega Railmaster is a wristwatch that I can't really fault. I've been interested in watches since I was a kid, having a mad fixation on the Rolex GMT Master, thinking it was the watch that James Bond wore in the movies. It wasn't until my late teens that I realised that he wore the Rolex Submariner model in the films and quite possibly (though never properly proven) a Rolex Explorer in the Fleming novels.
I began collecting watches in the late 1990s and have amassed a steady (and my wife says excessive) collection over the years featuring a variety of styles. The Railmaster sits in a category all by itself. The dial is all no-nonsense, almost lifted straight off a dive watch design with its clear contrasting numerals and dial. And while, at first glance, it might be mistaken for a military or pilot's watch design, a closer inspection will show that it is indeed neither of these.
While available in numerous sizes, as mentioned earlier, I knew that the 36.2mm diameter would best suit my 6.5 inch wrist. Bear in mind that 34 to 37 mil was the standard size for a watch of this style from around the late 1950s until around the early 2000s. While I was tempted to go for the 39.2mm model, I thought it too close in size to some of my other dive watches and chronographs. Once I made that realisation, I was convinced that 36.2mm was the perfect size for me.
Mediterranean Sea, August 1960
"I
filed my story on the Turkish coup. Old Man Bennett was happy, since The New
York Times managed to scoop every other paper in the country. So happy, in
fact, that he let me come back to The States a few months later. My job
here was done. Although, I'm gonna miss Turkey. I'd even just gotten used to
the coffee, too.
I got word that a British Royal Navy submarine was due to pass by the
port at Mersin. Travis pulled a few strings and managed to get
me aboard.
The
Captain, a big fella named Sinclair, said it was all 'highly irregular', but a
message from his superiors soon calmed him down. The sub was headed back
to England. I'd catch a flight back to La Guardia from there. Sinclair and I
had a cup of tea up on the conning tower soon after we were underway.
Even lent me a Peacoat to wear. 'Keep it, old boy. We have hundreds', he
said when the sub arrived in England.
Half-way
home. Can't wait to get behind the wheel."
Despite its bold appearance, the Railmaster is an understated wristwatch. People who aren't into watches have commented on its neat appearance. Even some watch nerds that I've met are surprised to see that it's an Omega. They weren't aware that Omega made this style of wristwatch.
The Railmaster wasn't in production for very long and I think its lack of date window was the reason for its discontinuation. I doubt that it sold in large quantities compared to its AquaTerra cousin, seen below;
Still, as I stated, I think a date window would have ruined the look of the Railmaster. Production of this watch ceased around 2009 and there were hopes that Omega would release a new version complete with in-house movement. Alas, the Baselworld wristwatch fair, held early last month in Switzerland, showed no new Railmaster model from Omega. Maybe next year.
In the end, it doesn't matter. If you hunt around, the Railmaster can be found on the second-hand market from time to time. As I've said, I was impressed when I first saw this watch, but I couldn't justify getting it because I felt that my AquaTerra, above, was too similar. Although, the more I looked at the Railmaster, the more difference I saw, despite the fact that the case and bracelet are identical in these two watches. But the dial provides the greatest point of contrast. I had often said to colleagues that it would make an ideal retirement watch, when needing to know the date perhaps isn't of great importance.
When I was presented with the opportunity to buy the Railmaster from Reese, I decided that I didn't want to wait until I retired.
It's a great all-purpose wristwatch.
A FINAL NOTE: I read through this review and am aware that it's a little silly to write about a watch that is no longer in production. There are already a few reviews on the Railmaster out there on the internet, but I've been so impressed with this watch since I got it that I just had to throw in my 2 cents about it.
Thanks for reading!
EDIT- July 2017: This review was originally posted here in 2013. Photobucket's recent changes to their policies regarding 3rd party photo hosting has meant that all the photos in this review were 'locked' unless I upgraded to their pricey storage plan. I have re-inserted the photos in this review from my hard drive, and made some minor layout changes while I was at it.
CREDITS:
Special thanks to Mrs. Teeritz and the kids for helping out with the photo-taking.
And a HUGE THANKS to Wayne for letting me take some pics of his '57 Chevy Bel Air!
Man, that car's in immaculate condition!