I have a lot of questions!
1. You intentionally made the engine backfire while in the car knowing there may be the possibility that it could explode? Despite the fire risk?
2. Have you spoken to anyone that has printed complete intake manifolds that have had success with long term durability? As in years and
thousands of miles? I ask because I have not seen it done yet. Everything I have ever seen or heard about has been limited to prototypes and
short term use. Short term being under 100 hrs.
3. How resistant to today's pump gas are the materials? Will they absorb gas after long term use? Will the material become brittle?
4. What about vibration and cracking?
5. Is the printing process cost effective over a casting? Or even using the 3d printer to print dry sand cores? It would seem the 3d printing process
for a complete intake would be costly for a production run on something that would be a popular seller such as a small port 2x4 manifold.
6. I understand the materials are heat resistant beyond the operating range of an average engine, but what about heat AND pressure such as under
bolts? Will the material compress over time?
7. Have you done any flow work in general and dyno testing in the past?
8. Will you be using cfd simulations to help with your designs?
If I haven't kicked the hornets nest too hard yet, I would like to know more.
1. Had to blow it up somewhere and we needed it to happen sooner than later because I knew there was a risk for anyone to create a back fire. My engine is coming out and apart on the wagon this winter so logically, why not just blow it where it sets. We would have been set back 3-4 weeks in development if we would have waited to pull the engine. Clearly my wagon isn't some show queen and I had fire extinguisher on it in seconds. Unlike some things we can put off, there is a schedule we have set for ourselves to get a working product ready to go and to meet that schedule we have to make things happen now and not wait for a more sanitary environment to test to the extreme.
2. I have a large group of people that 3D print (and lucky enough) that live and work right here in DesMoines. I go to their meetings and bounce ideas off of the experts and tell you the truth, what I'm doing is pretty boring compared to what I've seen being created.
3. How many of us have Nylon parts in our carbs/fuel injection systems in the cars/trucks we drive ever day? I don't see any car manufacture worried about it so I'm not either. Really it comes down to picking the right materials to do the job. Again, where the experts come in.
4. Ever look out an airplane and see the wings flex? Carbon Fiber Nylon also has some give to it. If it cracks then you either didn't build it right or someone didn't use the object as it was designed.
5. 3D Printing is so much cheaper than casting. Changes to a print can be made during the print. What changes can you make to a casting halfway through the process? From design to working piece in days instead of months. No over head, no investment in over head with parts setting around. Plus you can customize it and print it in just a couple days. We plan on having more than just the 3 printers we currently run and don't expect everyone is going to want the same thing at the same time. Besides it only takes a day to construct another printer and get it printing so scaling up would be simple, quick and easy.
6. The kind of mounts you use are important because every bolt has a purpose. Again, the experts and some testing has given us some good results so far but I'm not convinced yet that we can rely on Carbon Fiber Nylon or special inserts to hold important items in place. We will see.
7. For this Series One intake, no flow work was done. Its simply a proof of concept that didn't need more than volume calculations for runners and plenum. This first simple design had one purpose in life to get us a running 434ci stroker W engine (with dual quads) and grab everyone's attention online. It did both successfully and now its time to change the design significantly.
8. I LOVE CFD (Computational Fluid Dynamics) is so ******* cool and fun. Design, simulate, design, simulate, design, simulate..... Taking the information about information to come up with a solution is my jam. The whole reason I was the marketing guy for ADM was because I love analytics. Filtering out the noise to create empirical evidence to support a finding is how I ended up becoming a law clerk. CFD is going to be one of the most interesting/fun aspects of this journey. Remember, no one has ever used CFD on factory 348-409 intakes. Once we have a better 3D scan system, I will be taking each and every factory casting and creating a flow graph for each one.
I hope some of this helps Dan.