Friday, December 22, 2017

This year is done and it's time to move on!

This year is close to an end and 2018 is just around the corner. I don't know about you, but here are just a few things I wish happen in 2018:
  • This winter ends in March, not April.
  • I go for a week-long bike tour.
  • Congestion pricing is introduced in Boston Metro Area.
  • Newbury St and Hanover St in Boston are permanently closed to private vehicles and become bike+ped only zones.
  • There is a dedicated bus lane on Mass Ave all the way from Arlington to Harvard Square.
  • Parking minimums are dropped in Boston. Also, parking maximums are now in place.
  • It costs now $200/y to get a resident parking permit in downtown Boston. Second car permit costs $500. Third and more cars per household are not allowed.
  • No school drop-off by car is allowed anymore.
  • All mandatory helmet laws are lifted.
  • Shimano introduces a road groupset for the "unwashed masses" with 44/28T crankset and a 11-32T cassette. Also available in polished sliver finish.
  • Jagwire makes cable+housing kits that are actually designed for road bikes with disc brakes, so I don't have to buy two of them because the front cable is too short to reach brake caliper.
  • Senate passes a bill requiring all bicycle headlights used within the city limits to have horizontal beam cutoff to avoid blinding other road users. Also, strobe headlights are banned. This is modeled after German StVZO.
  • Elon Musk admits his tunneling idea was a brain fart and starts building a fleet of fast electric streetcars, buses and high-speed trains.
  • Lobbying, aka "legal bribing" becomes illegal in United States and is ruthlessly enforced with huge fines and imprisonment.
  • The president and vice-president resign and move to Florida to play golf full-time.

Wishing you all Merry Christmas and a Bikey New Year!
May Yehuda brings you lots of presents this year!

Friday, December 15, 2017

DIY - refinishing bicycle components

Sometimes you have to take matters in your own hands. As I wrote a while ago, I'm not particularly fond of the decision of major bicycle components manufacturers to offer their products exclusively in black finish. Too often we are left with little choice and if you are looking for a particular part for your bike, you can have it in black... or not have it at all. Typically, hubs, pedals or headsets are offered in multiple colors but handlebars, cranksets or even worse - derailleurs, are usually black only.

Because I'm working now on a new bicycle project, I need components that are not black but polished silver. That turned out to be quite difficult, especially considering some limitations I have to deal with. Therefore, I decided that if component makers are unable to provide what I need, I have to make it myself. Sort of.

The parts I want to use on my bike but don't have silver, polished finish I'm looking for are:
  1. My old Sugino OX601D crankset and chainrings. They are silver but with dull, bead blasted finish.
  2. TRP brake adapters (and all other adapters too). Come only in anodized black.
  3. Shimano RD-7800-GS 105 rear derailleur. A modern rear mech that's 11-speed compatible and comes in "silver" option... with a  black pulley cage.
The plan was to strip off black anodizing, sand and polish surface enough so it looks nearly mirror-like. Normally, you would want to use a tumbler or vibrating polisher to this type of work but since this equipment can be pricey and I have no access to it, I had to rely on less high-tech methods to get the finish I was looking for.

Fortunately, I have some work space in my basement and access to several handful tools. I found out that the best procedure is the following:
  1. Bead blast off all black anodizing.
  2. Sand with 400 grit paper.
  3. For tight corners use cushioned paper or pads. Those hard to reach areas can be sanded using steel brushes on Dremel tool (Very gently! Dremel is a high-speed tool and will erode aluminum surface if pushed too hard). 
  4. Sand with 600 grit paper.
  5. Sand with 1000 grit paper.
  6. Sand with 1400 grit cushioned pads. At this point parts will already have nice shiny finish.
  7. Polish with buffing wheel and emery compound.
  8. Finish with buffing wheel and white rouge compound.
My Sugino cranks in their original finish.

And after hand polishing. Minor scratches are still visible but overall I'm quite satisfied with this result.


This process takes time and patience but results are rewarding. I have now polished parts I was looking for. The original finish is gone and most tiny scratches are nicely blended in. This could be likely taken even further going down to finer grit sanding paper but I think it's unnecessary. These are bicycle components after all. They will get some new scratches in normal use so it's a bit pointless to make them look like a clean mirror.

Time to put it all together.

Wednesday, December 6, 2017

Developing standards

Ah, the ever-changing standards. We love them and hate them. You would think that standards are here for a reason - to make everyone's life easier by designing components that fit together. Unfortunately, reality is less than perfect and that's why we have this modern bottom bracket mess.
Obligatory XKCD comic.

Bicycle bottom brackets are a good example what trying to make good better may lead to. Nearly two decades ago, the most common bottom bracket type was the one with square tapers on a small, steel spindle, assembled into a sealed cartridge.
Square taper bottom bracket cartridge (Source: BikeRumor)

Then, lightweight cranksets arrived and with the tendency to make cranks stiffer, lighter and stronger, a larger-diameter spindle was needed. With bearings sitting inside the frame, there was no space for it so outboard bearings were developed, with cups threaded into the same BSA-threaded frame shell. That worked pretty well and still works today.

But then some companies took it a step further and tried to "improve" it by removing outboard cups and threads, by press-fitting bearings directly into frame. Multiple new "standards" appeared: BB90, BB86, PF30, BB386EVO... Most of them were less than perfect. With frequent tendency to creaking noises due to sub-standard part tolerances, cyclists started to abandon these inventions and go back to what worked just fine. In fact, that's why Chris King developed T47 standard (yes, yet another one) that uses threaded frame shell and can adapt any other BB type to work noise-free.

You may have your own preference and opinion what the best bottom bracket standard is and I'm not going to try to convince you otherwise.

That's not what I wanted to write about. I wanted to focus on... screws. You know, these little parts that hold all of it together.

Decades ago, most screws on bicycles had hex heads, requiring a multitude of various size spanners to make simplest adjustments. Headsets were threaded with large hex nut, cranks had cottered pins with hex head screws. It worked but wasn't pretty.
Hex head stem bolt with large-diameter hex hed nut securing threaded fork shaft. (Source: MyTenSpeeds).

Then things got better. Essentially all bicycle and component manufacturers switched to hex socket screws that require few hex keys (Allen wrenches) only. Thank God they chose metric screws, likely to utter disappointment of all Americans believing in their "standards".
Socket hex head screws are a norm in bicycle world today...

but will they soon be replaced by Torx standard?

This unification of screws was definitely well-received not only by cyclists but also bike mechanics. As a result, now, modern bikes can be put together with just few basic tools, notably the 4mm and 5mm hex keys. With these two small wrenches, you can assemble nearly the entire bike with a few exceptions that require (and always did) specialized solutions such as cassette, chain or headset cups.

Unfortunately, there is ongoing process of improving things that already work and as such we welcome our new overlords - Torx screws. It seems that some bike mechanics or users have problems with stripping of hex sockets, likely by using low quality tools. As such, Torx screws are becoming a new standard as those harder to strip. Do we need them? I'm not sure. But if you think you do, I suggest we replace all hex sockets with Torx and keep it consistent. We don't want to go back to the 1950-era of carrying a tool chest on every ride.

Friday, December 1, 2017

Why self-driving cars won't replace public transportation

The future is here! Soon our cities will be free of congestion, free of rush hour frustration and so much more affordable! Oh, and they will be free of this obsolete, early XX-century invention, called public transportation.

At least that's what Tom Keane seems to think in his Boston Globe article "Why self-driving cars will kill the T". (If you're not from Boston and don't know what T is - it's our public transportation network: subway, streetcars, buses, even ferries). Apparently, according to Tom, all these will soon be gone - replaced by masses of much cheaper autonomous vehicles (AVs). He claims that T is wasteful, inefficient and simply not needed in the future. Because in the nearest future, we all be moving by these electric vehicles that we don't need to own. We just call them, Uber-like, on demand.
Autonomous vehicle, according to Google.

I can't tell what future will bring upon us but something tells me that public transportation will be difficult to replace by AVs in the next 10 years. But first, I'm going to address multiple claims the article makes:
 
"Environmentalists and planners love public transit. Those who ride it? Not so much." 
Maybe, but have you asked yourself why? Compare quality of service (arrival/departure on time, interruptions, breakdowns, etc.) with other commuter rail system in the world and see how poorly maintained and underfunded MBTA is. I can compare MBTA to Berlin's U- and S-Bahn since I lived in Germany prior my arrival in Boston. That was years ago, but I still remember my surprise that buses and trains in Boston run so infrequently, like the timetable was something MBTA has never heard of. Punctuality, efficiency and density of Berlin's public transport system puts Boston to shame. They are like two different worlds. Still, far from what they have in Japan where companies need to apologize if train leaves the station 20 seconds too late.

"Check out the grim faces of your fellow passengers the next time you’re on the subway." 
Or you can check out even grimmer faces of other drivers next time you're stuck in traffic on I-93.

"While driving, you can talk on the phone." 
Maybe you can but it doesn't mean you should. Distracted driving is illegal and talking on the phone counts as such.

"Bostonians suffer through 409 million trips on the T annually. Why? Because owning a car is expensive — almost $8,500 a year. And, of course, the congestion." 
Thank God it's expensive. Can you imagine if owning a car was as cheap as $1/month? People would drive even more and congestion would be even worse. How do you think Boston would look like if we put everyone from those 400 million T trips into own AVs?
 
"Autonomous vehicles’ most profound near-term impact would be in reducing congestion and pollution." 
Very unlikely. If AVs are more affordable and accessible than regular cars and even the T, induced demand will drive numbers of AVs on streets to higher numbers than cars right now. Not only those who drive regularly will use AVs but also those who now take T or don't travel into the city at all. Furthermore, pollution is not only exhaust gases. It's also generation of particles due to wear of tires and brakes and contamination due to dust raised up into air by moving vehicles. The more vehicles on roads, the worse it will be.
 
"Once we’re dropped at our destination, our AV won’t need to find parking; it’ll simply move on to the next customer." 
AVs may need less parking but it's a myth the don't need it at all. Demand on AVs will be highest early morning and later afternoon (rush hours) and nearly non-existent at night. If AVs are going to be as affordable and accessible as this article pictures it, we will need thousands of them and these vehicles have to park somewhere. Ideally, not too far from places they're going to be needed soon, which means likely suburbs in the morning and city centers in the afternoon. While it may be easier to find space for large parking lots in the suburbs, building more garages for AVs in the centerof Boston is going to be a costly development.

"AVs will be electric."
Sounds nice but this means thousands of new electricity consumers that require high energy infrastructure. Those fast-charge stations will be needed everywhere, including city center. That's a serious challenge for our electricity grid.

"Consider that if AVs no longer need to park, an additional lane or two now given over to street-side parking could be available for travel, opening up roads."
As I wrote above - they will need to park (at very least to recharge). But I would rather give that extra space to pedestrians and cyclists than more AVs.
 

AVs will be cheap because "nationally, an average automobile costs $0.56 per mile to drive, says the American Automobile Association."
Don't ask AAA how cheap driving is. Ask someone less biased, please. AVs will be cheap if we keep subsidizing driving. If we put the same money into public transportation, we would also have cheap and efficient light rail, bus and streetcar systems.
 
"But public transit users are heavily subsidized."
It is, but far less than driving in U.S. If you had to pay real market value for 1hr of parking in downtown Boston you would see how subsidized it is now. The fact that we are still stuck with gas tax rate from the 70's and it covers only a fraction of road maintenance costs, shows how much we actually have to subsidize driving in this country. If driving could pay for itself, we all would have to pay much, much more for parking, tolls and gasoline.

"Since we’ll use AVs in an Uber-like fashion, we’ll pay only when we need a ride — without the cost of a driver."
No. You will also pay a fee for parking of "your" AV when it's waiting for you and charging its batteries.

"Insurance will be cheaper (or perhaps unneeded)."
Insurance per passenger may be cheaper but you will pay a fee to cover insurance costs of companies operating a fleet of these AVs.

Also, the article doesn't mention what would happen to all standard cars - those that still require drivers. If AVs could somehow replace 100% of them, then there is some chance for improvement. But unfortunately, it seems right now that AVs will just allow more people to move (such as elderly who can't drive anymore) but won't reduce car ownership. I can't even imagine that - it so non-American not to own your car but to share it with some strangers. That's communism, right?

And finally the last and most important question - will AVs be allowed to save parking spaces with trash bins and folding chairs in winter?

Essentially, it all boils down to travel efficiency as measured by number of people moved in time. In countryside, where distances are significant and space is available, cars on highways, high-speed trains and finally airplanes work quite well. In cities, where distances are shorter and road space is scarce and expensive, placing one person per vehicle makes simply no sense. It doesn't matter if this vehicle has a driver, is electric, or autonomous. It still occupies too much space on road. That's why high-density transport systems such as T still work best (which doesn't mean we need to stick to these ugly, old green train cars). Single-user AVs won't help here, which is why public transport will remain.

So no, AVs won't replace public transport but they may help to solve some current problems. At very least, here is what we could do:
  1. Introduce as many dedicated bus lanes as possible and give signal priority to buses over AVs.
  2. Introduce congestion charging - the most effective way to keep many cars and AVs off streets in the mad morning or evening rush. You want to take AV to work at 8:00AM? That may cost you $50. But if you drive the same distance at 11:00AM it may be only 10$.
  3. In general we want less cars, not more, in the city so let's increase efficiency of AVs by prioritizing those with many passengers. How about autonomous vans and minibuses? I'm going to quote myself here:


The future is bright. It just won't rely solely on single-user autonomous vehicles in highly urban areas. There is no space for that.