Cat Eye Gel Polish – FAQs

 

1. Q: What is cat eye gel polish?

A: Cat eye gel polish is a magnetic gel that contains metal particles. When a magnet is used, it creates a dimensional, light-reflecting “cat eye” or velvet effect.


 

2. Q: Do I need a special magnet to use cat eye gel?

A: Yes. A cat eye magnet is required to activate the effect. Different magnets create different designs such as lines, waves, halos, or velvet looks.


 

3. Q: How do I apply cat eye gel polish?

A: Apply a base color (usually black or a similar dark shade), cure it, apply one thin layer of cat eye gel, use the magnet before curing to create the design, then cure and finish with top coat.


 

4. Q: Why is black gel recommended under cat eye polish?

A: Black enhances the magnetic effect and makes the shimmer appear brighter and more dimensional.


 

5. Q: How long should I hold the magnet?

A: Hold the magnet close to the nail (without touching) for about 5–10 seconds until the design appears.


 

6. Q: Should I cure before or after using the magnet?

A: Always use the magnet before curing. Once cured, the design will be locked in place.


 

7. Q: Can I use cat eye gel over other colors?

A: Yes. While black gives the strongest effect, you can use cat eye gel over colored bases for softer or unique results.


 

8. Q: What happens if the design moves after curing?

A: If the design shifts, it usually means the gel layer was too thick or the magnet wasn’t held long enough before curing.


 

9. Q: Can beginners use cat eye gel polish?

A: Yes. Cat eye gel is beginner-friendly with a little practice. Start with simple straight-line magnet effects.


 

10. Q: How do I get a velvet or halo cat eye effect?

A: Use a round or multi-side magnet and move it around the nail edges to pull the shimmer toward the center.


 

11. Q: How long does cat eye gel last?

A: With proper prep and application, cat eye gel can last 2–4 weeks without chipping.


 

12. Q: Do I need a special top coat?

A: No, a regular gel top coat works. Apply carefully to avoid dragging the magnetic particles.