Train in Style with Men's Pop Art BJJ Rash Guard - Roy Lichtenstein Inspired Dahlia Design
Introducing the ultimate fusion of art and performance - our Men's Pop Art BJJ Short Sleeve Rash Guard featuring a Roy Lichtenstein inspired Dahlia print. Made with high-quality modern materials, this rash guard is perfect for high-intensity training, offering superior comfort and durability. Designed with the modern athlete in mind, it's the perfect rash guard for any athlete.
Made with moisture-wicking fabric, this rash guard will keep you dry and comfortable even during the most intense training. The four-way stretch technology ensures unrestricted movement, allowing you to focus on drilling and not on your rash guard. The flatlock stitching adds an extra layer of comfort, preventing chafing and irritation during tough rolls.
This rash guard isn't just practical, it's also stylish. The striking Roy Lichtenstein inspired Dahlia print is a bold and unique statement, sure to turn heads on and off the mat. Whether you're drilling on the mat or enjoying a day at the beach, this rash guard is a versatile addition to your wardrobe that's sure to spark conversation.
Why settle for an ordinary rash guard when you can unleash your inner pop art fan with our Men's Pop Art BJJ Short Sleeve Rash Guard? With its premium materials, superior performance, and eye-catching design, it's the perfect way to add a touch of artistic flair to your jiu-jitsu lifestyle. Whether you're a white belt or a professional mixed martial artist, this rash guard will help you perform at your best and look your best doing it.
This product is made especially for you as soon as you place an order, which is why it takes us a bit longer to deliver it to you. Making products on demand instead of in bulk helps reduce overproduction, so thank you for making thoughtful purchasing decisions!
- 82% Polyester
- 18% Spandex
- 38-40 UPF
- Fitted Design
- Comfortable long body and sleeves
- Flatseam and Coverstitch
- Very soft four-way stretch fabric that stretches and recovers on the cross and lengthwise grains