Just Exhausted

XS650 Cafe
I have started to put together the exhaust system. I am using 16g stain steel tube comprising of 90 degree bends and straight tube. The next step after the headpipes have been fabricated is to build the mufflers. I will be fabricating reverse cone muffler from 20g stainless steel.

Other Motorcycles
I was able to pick up for a reasonable price, two more motorcycles that had both been disassenmbled. The motorcycles are a 1972 XS650 and a 1971 CB350. So my plan is to build another Cafe Racer from the XS650, using an aluminum tank, seat and fender set that I have been working on. For the CB350, my initial plan is to build a streettracker with a vintage feel/look to it. 

Still at it

XS650 Cafe

I am trying to finish up leak test/repair on the tank this week, and then I can seal it.

For leak testing I hooked up a bicycle pump to one of the petcocks, and used a spray bottle with soapy water to check the joints. I found a a number of pinhole leaks that I sealed up using lead solder. I decided to use solder instead of welding to minimize the amount of heat being applied to the metal. Welding the pinholes would require to much heat leading to more warpage.

I will be coating the tank with POR-15 sealer, so if I miss a pinhole or two, it will be sealed. I would just prefer to eliminate as many leaks by soldering them first.

I also cut out the padding that will be going on the seat cowl. I stil deciding if I should increas the thickness in some areas.

Starting to mockup the exhaust header pipes. I need to get some stainless filler rod, then I can proceed to welding the tubing.

Back at it

CNC Mill

It was fun while it lasted, but I decidede to sell it to free up the (little) time I have to focus on my metalshaping/motorcycle projects.

XS650 Cafe Racer 

So I am back at the motorcycle project. I have to work furiously now to get what I can done during the summer.

The gas tank now has the fillercap, petcocks and front and rear mounts installed. I designed the front mounts such that they use the stock frame ears. It works well.



I reworked the seat cowl to butt up to the tank. When I get around to upholstering the seat cowl, I can make it flow from the gas tank. 



The front fender is completed, I am now working on the mounting for it. I will be creating a fender mount that is also a fork brace.



Here is a pic of the gas tank and seat cowl set on the frame.



The exhaust system is being worked on also. I am creating it out of 1 5/8" stainless steel  tubing. It will be 2-into-2 system with short (15m") megaphone mufflers.

 

 Miscellaneous Metalshaping

In my last entry I mentioned starting to work on creating a gas tank and seat cowl out of aluminum. Here is the original tank that I am using as a reference.



I have started to shape the tank pieces. Here are a couple of pictures showing the progression from flat sheet to some rough shape.

  

Here are a couple of pictures showing the seat cowl buck and the initial shaping so far.

 

I am also creating in aluminum another gas tank identical to the steel one that was made for the Cafe Racer. Here is the progress on that so far.



To weld these tanks and seat cowls I will be using gas welding, same as I use for welding steel sheetmetal. Gas welding sheet aluminum has it's own challenges, and is more difficult than steel sheetmetal. Why use gas welding for aluminum? Well, aside from it being the only welding equipment I have available, gas welding aluminum allows for a stronger weld. Gas welding can achieve full penetration of the weld joint more effectively than TIG welding.

Here is my first crack at gas welding aluminum. The first picture is the weld bead, the second picture is the weld bead filed down. Both pieces were butt welded.

 

CNC Mill(er) Time

CNC

I am gearing up to use the mill to cut out some prototype parts.

 What I wanted to do before this is to build an enclosure for it.  I haven't done that yet, but I am probably half-way there. A friend of mine who runs a metal fabrication business bent me up two 26" x 40" 16 gauge sheetmetal trays with 3" walls. The plan is to use them for the top and bottom of the enclosure and use .5" thick fibreglass coated plywood for the sides. 

What I have installed is just the bottom tray, over the spring/summer I will finish the enclosure.



XS650 Cafe Racer

It has been a slow slog to finish off the metalwork on this motocycle, but I am slowly making headway. I have fully welded up both the gas tank and the seat cowl. Next step is to install some petcock bungs (2) on the tank and do a pressure test for pinhole leaks. After that install a filler cap, the front and rear mounts and call it a day for the tank.

 

Miscellaneous Metalshaping

I have been really eager to get into doing some projects with aluminum,  so I purchased a 4' x 6' of 3003 (.063"). My plan is to create a another gas tank and seat set like the one I am currently working on, but this time in aluminum and polish it.

As well, I have another gas tank that a friend of mine gave me that I like the shape of...it is more box-like. So I will be making two aluminum tanks of that tank design, but stretched 1.5" longer. I am in the midst of designing a seat cowl to match the flow of this tank.

Tank Top

XS650 Cafe Racer

The top of the tank has both knee cutouts welded in. The next steps are to, grind down the welds, stretch the heat affect zone (HAZ) areas and metalfinish the tank.

 

I managed to roll the tank tunnel as well. The results are pretty good.
I was stumped for a while trying to figure out how to roll the correct radius. A few emtpy apple juice cans provided the solution. I welded them together and rolled a piece of 16 gauge sheetmetal around it.  
From the pictures you can see that the tunnel fits within the tank buck fairly well. The next steps are, weld the end cap on the one side (shorter side) and start the tank-to-tunnel fitment.

  

Even More Milling Around

CNC Mill

The mill is finally at a stage where it is usable. Since the last blog entry, I have assembled the mill, tested it with the control software (Mach3) and have built a stand for it.



I purchased some basic tooling (end mill holders, end mill holders) and I cut a simple 2D part out of hardboard. For a first pass it wasn't too bad. I still have to dial the mill in by tramming the head and checking into the backlash.



There are a few things still left to do:

1. Wire up limit and home switches.


2. Create a stand to mount the LCD monitor, keyboard and mouse.


3. Create the tooling plate.


4. Create a splashguard/enclosure for it.

Those things aside, the mill is finally functional and I can use it to prototype some parts for my motorcycle.

Here is a before and after of the mill from when I got it in Nov 2008 and how it is today.



Garage Stuff

I have been wanting to put together a small welding table for some time now. I finally was able to weld it up over the last couple of weeks.



The plan is to drill and tap a matrix of threaded holes into the tabletop. This will allow me to use bolt on fixtures to hold parts when I weld them.

XS650 Cafe Racer

Now that the CNC Mill is operational, I am focusing my attention on finishing the metalwork for this motorcycle.

I started working on the gas tank. I bent up pieces for the knee cut-outs and tack welded them into place. I'll be finishing off these welds and then bending up the tank tunnel and bottom.

More milling around

CNC

I have been continuing the work on mill retrofit.

The Control Box has been completed. I gave it a coat of paint, installed all the components and wired them up.

I purchased a used computer a few months ago that I am using to control the mill. So I intalled Mach3 on it, and tested out my wiring.
Some simple tests have shown that the Control Box works. The G540 through Mach3 is able to activate the relays for the spindle and flood coolant controls.

As far as the mill itself goes. There are a few of things I have done:
1. Base. Currently the mill was on a 3/8" of steel plate that was bolted to the original box. I fabricate a base out of 2"x2" steel tube and 1/8" steel plate. The idea being that the mill sits on this and this base is bolted to the mill stand.


2. Anti-backlash. Using compression springs and thread Delrin blocks, I was able to devise an anti-backlash mechanism that I hope will improve the accuracy of the mill. The compression of the springs between the delrin block and the bronze nut yields almost 50lbs.


3. Motor mounts. On the x and y axis, I improved upon the motor mounts. I used aluminum standoff blocks, whereas the previous ones used a metal box that wasn't as secure.


4. Cover. Because coolant eventually will be used on the mill, the exposed x axis motor needs to be protected. So a cover was fabricated from sheetmetal.


5. Paint. The mill has been painted, improving upon the colour scheme originally used.
6. Stepper Motors. The motors have been wired up, and just need to be plugged into the Control Box for testing.

Things left to do:
1. Assembly. Put the mill together.
2. Tooling Plate. I picked up a piece of 15" x 6" ALCOA MIC6 plate that will be used as a tooling plate. A matrix of drilled and tapped holes addd to it, and then it will be bolted to the mill table.
3. Limit Switches. After the mill is assembled and operational, limit switches will be installed.
4. Mill Stand. Need to construct a workbench that the mill will sit on, and eventually build an enclosure for it.