The fairest comparison...
We’ve compared our cellos to high-end cellos worth tens of thousands of dollars. And, we’ve found that the Forte3D Cello, priced below $3K, can stand up to that particular test, BUT...
If we compare it to a wooden cello within the same price bracket, thanks to
@thecellodoll , the results are even more impressive!
Keep reading to understand why! ⬇️ ⬇️ ⬇️
This is the world’s first 3D Printed Carbon Fiber cello, which means that even though you can acquire a wooden cello for the same price, the Forte3D cello provides an incredible, high quality sound, along with durability that wooden cellos just aren’t able to bring to the table.
Why? Carbon Fiber stands up to the elements! 🍂❄️☀️🌧️
Wooden instruments tend to be very fragile for the following reason:
1. Wood is a natural, organic material that can be affected by changes in temperature and humidity. Too much dryness can cause the wood to crack or split over time. Carbon fiber is a synthetic material that is not impacted by environmental conditions in the same way.
2. The wooden cello body is made up of many thin pieces of wood (top, back, sides, etc.) that are glued together. The joints and seams between these pieces can become weak points over decades of use. Carbon fiber cellos have a seamless, molded body without joints.
3. Wood can get nicked, dented, or scratched more easily from impacts or mishandling. Carbon fiber is extremely durable and resistant to surface damage.
4. Wooden instruments need more regular maintenance like seam regulation and crack repairs as they age. Carbon fiber is practically maintenance-free.
5. Wood is susceptible to warping, distorting, or losing its resonant properties if exposed to extreme conditions over long periods. Carbon fiber maintains its stability and acoustic qualities.
Interested in making a purchase? DM
@forte3dcello for more info!
#carbonfibercello #carbonfiber #3dprinting #musictech #cellomaking #classicalmusic #cellist #cellos