The first edition of our newly developed dual bonded production method is used in the new soccer ball called BLAZE DB. The construction of this ball consists of a PU-material laminated with 3 mm foam. Next, two layers of textile underlining are laminated to the foam layer to add stability. The panels are then 3D printed with 3mm edge glue and stitched by hand, In the heat mold the glue is activated to hide the stitches. Next, the seam sealing is done by hand. The glue in the seams reduces the water uptake significantly. The bladder inside is a SR-bladder with excellent air retention. The result is a soccer ball with both stability, control and a softer touch compared to other balls in the range.
Finding the best soccer ball is important. You don’t use a ball only once and you keep on pushing and stepping on it all the time. Your typical soccer ball is not something that you usually handle with care and attention. So you need to buy something reliable that will not get cut with frequent use. At the same time, you need something that comes in the right size, weight and feel. When the ball is too heavy or too light you will not be able to use it properly.
Though, a ball designed to be played virtually anywhere will have to sacrifice something to achieve that versatility. For the Brasilia, that sacrifice comes in the form of responsiveness. While the glossy finish may offer some protection, it also reduces your touch with the ball. A bladder made out of synthetic rubber-not to mention that TPU is only okay when it comes to touch in the first place, further compounds this effect.
The soccer ball has gone through various changes just as the football game. As opposed to yesterday’s football ball that had stitches and seams and the classic black and white design, today’s soccer balls are designed with the latest technology that lets the ball bend more, fly quicker and also dip harder. Besides, they are quite soft that they let players kick the ball further without risking injuries. https://www.youtube.com/watch?v=DGp37du0xbQ