Ir al contenido

Simulador Torsion Balancer

Guía de uso (versión beta 1)

              1. Encuentra tu raqueta en la sección Configurador del marco (situada a mitad de la página). ¿No encuentras tu modelo? Selecciona "Introducir especificaciones personalizadas" e introduce manualmente los datos de tu raqueta.
              2. Elige si deseas simular 2 o 4 Torsion Balancers.
              3. Selecciona la ubicación que prefieras en el menú desplegable.
              4. Activa la simulación cambiando de Marco base a Torsion Balancer.
              5. Explora los resultados y consulta la sección Explicación para comprender en detalle los cambios obtenidos.
AMbelievable Labs Torsion Balancer Visualizer
AMbelievable Labs Logo

Torsion Balancer Visualizer

Base Frame Torsion Balancers
Weight: 300g
Head: 100"
SW: 320
TS: 14.0

Swingweight

Plow-through & Power

320.0

Torsional Stability

Twistweight (I = mr²)

15.00

Activate Torsion Balancers above to see their physical impact on your frame's sweet spot and stability.

Frame Configuration

The Science, explained.

Sweet Spot Expansion & Metamaterial Science

In physics, the "Sweet Spot" isn't just one point; it’s the area where the racket’s vibrational nodes (points of zero vibration) and center of percussion align.

Bending Frequencies: Every racket has a natural frequency at which it vibrates when it hits a ball. Traditional lead tape adds mass to move these frequencies, but it often makes the racket feel "dead" or sluggish.

The Metamaterial Advantage: Metamaterials are engineered structures designed to interact with waves (like vibrations). By using a 3D-printed internal lattice, these balancers can "trap" and dissipate specific bending frequencies without requiring the heavy, cumbersome mass of lead.

Dynamic Expansion: When you add mass to the edges of the frame, you effectively "flatten" the power drop-off. If you hit the ball 2cm away from the center, the racket resists the urge to move or vibrate as much, making that "off-center" hit feel as stable as a center-hit.

Optimize Your Racket Now

This simulator uses validated physical models and experimental measurements to estimate torsion balancer performance. Results are intended as guidance only and may vary depending on racket specifications, stringing conditions, and manufacturing tolerances. Additional racket models and refinements are continuously being added. All reproduction prohibited. Copyright (c) Athleticae Srl

This simulator uses validated physical models and experimental measurements to estimate torsion balancer performance. Results are intended as guidance only and may vary depending on racket specifications, stringing conditions, and manufacturing tolerances. Additional racket models and refinements are continuously being added. All reproduction prohibited. Copyright (c) Athleticae Srl.