Axiom
Fission Time-Lapse
Color | Foil | Weight
▌ Color Accurate Photos of Every Disc
▌ All Discs Ship in a Box
▌ $5 Flat Rate Shipping
▌ Free Shipping Over $75
▌ Most Orders Ship Same Day
Overstable Distance Driver
12 | 5 | -1 | 3 |
SPEED | GLIDE | TURN | FADE |
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The Time-Lapse
Developed with the help of Simon Lizotte, the Time-Lapse is the first 12-speed driver in the MVP lineup. There’s enough glide and turn to generate some truly massive flights, but it also has the right amount of fade to make these flights predictable and controllable. When it comes to hand feel, the rim width represents the perfect middle ground between speed and maximum comfort, while the gentle dome makes the Time-Lapse feel amazing for backhand drives and adds some glide at the same time!
High-power players will find the Time-Lapse to be a controllable max-distance crusher, allowing you to create Simon Lines of your own. While low-power players will love the Time-Lapse as a controlled distance driver and potentially a wind fighter as well.
Time-Lapse Specifications
- Diameter: 21.2 cm
- Height: 1.7 cm
- Rim Width: 2.3 cm
- Rim Depth: 1.2 cm
- Bead: None
- PDGA Approved: 8.21.23
Fission Microbubble Technology
Fission™ Microbubble Technology produces an ultralight core with evenly distributed and imperceptible weight reduction microbubbles. The ultralight core allows an even higher GYRO® overmold density relative to the core.
This produces an entirely new type of lightweight disc never before seen in the sport, and beyond the capability of any other manufacturer. Weight distribution, stability, and durability of prior “bubble” discs are all improved upon by Fission. Skeptics of prior light or bubble plastics are in for a surprise, as Fission brings advanced disc physics and true high-tech molding into the lightweight plastics arena.
The Science of Gyro
Axiom's GYRO® Overmold Technology is a design that is produced through a two-step molding process that allows the outer ring to be made with a heavier material. The process of transferring mass away from the axis of rotation increases the disc’s moment of inertia at parabolic proportions.
Since linear and angular momentum and aerodynamics act upon each other simultaneously, an enhanced gyroscopic effect will improve all aspects of disc flight. Increased angular momentum of a disc in flight will allow the disc to stay on its rotational axis for a longer period of time, which means that its aerodynamic properties will be better exhibited for a longer period of time. When a thrower uses our discs, they will be able to achieve straighter, longer, and more accurate results.