Over the last month or so, we have tried to spend a bit of every day training. We ride our bikes (10-30 miles each day) or run (3-6 miles) on the Southwest Coast Path. Although we do not have a strict schedule or even a daily mileage that we will be aiming for while on tour, we know that the fitter we are, the less we will moan about our burning thighs, and the more we can enjoy the view.
North Cornwall is a beautiful place to train, hilly but not mountainous, and we have had really great weather recently. We have been taking advantage of local footpaths for running, quiet roads for cycling, and big hills for both!
A few days ago, we biked about miles to the edge of Bodmin Moor, and then locked up our bikes (probably overkill on a dead-end back-road in North Cornwall, but it is hard to get New York out of one’s system) and set out on foot to climb Rough Tor (pronounced raw tor), the closest thing Cornwall has to a mountain.
The approach took us over rolling hills, the fields gradually becoming more barren until we reached the moor proper. There were sheep and ponies grazing, and as we got closer, the ground alternated between wet bogs, stubbly pasture and boulders. The Tor itself is a cascade of boulders ranging in size from TV’s to SUV’s. The summit is an amazing rock formation, carved out by wind and rain, with stunning views down over the moor, over reservoirs and fields, and on this particularly clear day, all the way down to the sea!
What you saw in the earlier post tittled “EEK!” was a sneak peek into the ultralightweight trekking poles Adie is making. Trekking poles (or hiking poles, whatever you want to call them) are obviously not used much when cycling. Trying to coordinate the pole plants with the pedal rotations, while steering the bike without your hands would just be too tricky. Trekking poles are used when hiking; they help with balance, and take some of the stress off of your legs, especially in hilly areas. We plan on doing about two weeks of hiking in our two month trip, in the Pyrenees and maybe also in other Spanish mountain ranges.
So, you might think, carrying trekking poles when only 1/4 of our time will be spent trekking has got to be overkill. Well, actually, we will use these poles every day. The reason is that the tent we will be using (not homemade, unfortunately; it is the TarpTent Squall 2) is supported at the front by two straight poles. The poles that come with the tent are very thin, and flex too much to keep the tent up in strong winds. So, most people use trekking poles instead. The poles Adie is building weigh about a quarter less than the lightest commercially made poles on the market. So there isn’t too much guilt in carrying them either!
The poles use grips and tips sold as replacement parts by major pole manufacturers, but the actual pole sections are aluminium tube typically used for tent poles. The grips are replacement Leki grips, but to make sure no-one confuses these poles with commercial ones, Adie used a Sharpie to change LEKI to EEK! So now you know! The height of the poles are poles are not adjustable (but since they are custom made to Adie’s preference, they don”t need to be) but the poles will disassemble into two approximately 24-inch long sections for packing and storage.
Here is what Adie has done so far:
More to come when the poles are complete!
We have been making many of the camping and cycling related items that we plan on taking on our trip (from stoves to bags, both coming up soon in future posts). To test out our new 2.3 ounce waterproof silicon impregnated nylon fabric that Adie brought back from New York, we decided on an easier project to get used to sewing the material. We had heard of foldable bowls on our favorite bike touring sites and felt we could make just as good a design ourselves, and one that weighed considerably less. We designed our bowl “square bottom stuff sack style.” Although the top was round we found it easier to sew the bottom into an 8” inch square. The bowl was also around 8 inches high.
We used extra bicycle brake cable housing as our structure, it formed a ring around the top that was sewn in (above) and formed a 3 sided bracket that fit into pockets on 2 sides and the bottom of the bowl.
Above the almost finished bottom of the bowl. To make it we folded the fabric in half, sewed the 2 seams and then folded the fabric to make a rhombus. Then we measured and cut along the chalk lines. It’s all explained in the square bottom stuff sack link above. We attached an opened ended tube across the bottom for the bracket and then Rob hand sewed the side pockets which took a long time! We then used a mix of silicone seam sealer and white spirit (paint thinner) to seal all the seams along the inside of bag so water wouldn’t get out. we had to do this several times to make sure it was water tight.
Now we have a 7 Liter foldable bowl to store food, wash dishes/laundry etc and it only cost us around $3 -4. If you would like to make one of these or just see the process in greater depth, we plan on writing a detailed how-to on the website instructables.com soon. If you have any questions about this or other projects just post in the comments.
In our first post, we said that our trip is unique in a couple of ways. To sum up, we are riding bamboo bikes, which are fixed gear (meaning they only have one gear, and it is impossible to coast — stop pedalling while still moving — on them), and travelling ultralight (carrying as few and as lightweight items as we can afford to, both in terms of survival/comfort and also financially). This post will touch on why we are riding bamboo bikes, and how we made them.
Our bikes are a bit special, or at least we think so. We built the frames ourselves for a school project in our senior year. It started like this:
In a hallway at Fieldston, our high school.
Adie: Hey Rob, want to build a bamboo bike?
Rob: Why not?
Adie had seen photos of a bamboo bike built by this guy, fell in love, then saw the price tag. Then he thought “Well, I dont see why I cant build one myself.” So he did some detective work, and found a bunch of people who not only had built their own bamboo bikes, but some of them had published instructions. We decided to build the bikes at school as a so called “senior project.” Senior projects are designed to keep very-bored-second-semester-seniors interested in coming to school. People do all sorts of things, we built bamboo bikes.
Why would we want to ride bamboo bikes? Well, a lot of people ask that. We will definitely talk more about this over the coming weeks and months, but here is a short explanation. We think they look amazing (and we hope you agree). They also happen to be one of the easiest types of bike to build yourself (requiring few specialized tools or skills) and they also happen to be very high quality bikes (light weight, responsive, and comfortable). So that was why, and here is how we did it:
We each took an old bike from Adie’s grandmothers’ shed, where they were collecting dust, to use as a donor bike. This bike would provide some parts but also the geometry of the finished bamboo bike.
We ordered bamboo on eBay, then heat treated the poles using a plumbing torch. Heat treating got rid of extra moisture in the bamboo, and also caused a chemical reaction that strengthened the structure of the bamboo.
We then took apart the bikes, using whatever tools we had lying around, most of which were wildly inappropriate for the job, which yielded several large trash bags and a small pile of parts to reuse.
The art department at Fieldston very kindly found us a space of our own to work in, which is visible in photo above. It was an interior balcony over looking one of the art rooms. It was only about 5 feet wide, and after setting up our workbench (made from some junk cabinets and sheets of plywood) maneuvering was difficult at times.
Once the bikes had been stripped down, we set about cutting up the frames. Then we replaced each section we cut out with a matching bamboo section.
Each joint was cut, carved and sanded to fit perfectly at each end. Some joints were bamboo-bamboo and some were bamboo-metal. Certain parts of the bikes simply had to remain steel.
Once we had replaced all of the steel sections of the bike with bamboo, and glued them into place, we set about reinforcing the joints. We bought carbon fiber in string form (rather than woven cloth form), and started wrapping the joints. As we added carbon, we painted on epoxy, which is essentially a very strong two part glue. When the epoxy cures, it hardens around the strands of carbon fiber and creates a very strong and light material (fancy road bikes and Formula 1 cars are generally made from carbon fiber). We each wrapped around 2000 linear feet of it on our bikes, so this stage took a while.
Once all of the joints had been wrapped, we sanded them down until they were relatively smooth and shapely. Then we built up the bikes with a mixture of salvaged and newly bought parts. And TA-DA!
Actually, the story isn’t that simple. We both rode our bikes (very briefly) during the summer of 2010 after having trouble getting parts to work. However between finishing the work on bike frames at school, and the day we considered the bikes finished (when the photo above was taken), nearly 10 months passed. For most of it, we were both traveling, but we finally got together again, with our bikes, in England (where part of Adie’s family is from), in early February. We took our bikes for a ride, and about a mile from home, at the bottom of the first big hill, Robert came suddenly to a halt and said something inappropriate. Adie cycled over to him, and immediately saw the problem. One of the bamboo tubes on his bike had cleanly pulled out of its carbon fiber housing, and was skewed off to the side. We carried his bike the mile back home, and then after some manhandling, were able to pop the tube back into place. We knew then that something had to be done if we were going to ride these bikes for two straight months, several countries from home. So a couple weeks later, after gathering the necessary supplies, we set to work rebuilding the bikes. First we stripped all the parts off the bikes, this time with more appropriate tools, then spent several days sanding the bamboo and the carbon joints. Then we re-wrapped the joints with carbon fiber. We aimed to extend the carbon of the joints to overlap the bamboo by at least four inches at every intersection. The problem area on Rob’s bike had an overlap of just 1.5 inches. While we were redoing the joints, we also made them a lot smoother and more shapely.
It is amazing to ride a beautiful, high-performance bike, and even more amazing to know you built it yourself. We hope these bikes will hold up during our trip, as we know this method of building bikes works.