A ball is just a ball, right? Well, it’s not quite that simple any more. Some important things to consider are what the ball is constructed of, what material is used for the lining or bladder and, to state the obvious, the size of ball you require, which will depend on the ages of the players and the ball’s intended use, be it for training or match games.
The outside of the soccer ball is typically made from one of two materials: PVC or Polyurethane. PVC is much more affordable and durable, and these are typically seen in training soccer balls because training balls go through much more of a continuous beating. Polyurethane balls are usually even softer than PVC balls and its ability to go where you want it to go is much better than the PVC balls. As a result, these are typically higher-end balls. However, there are still various ways to construct them, and not all PVC or polyurethane balls are created the same. Glossy coatings, which are very popular in the public fields with the kids and adults alike, are also very useful because they help reduce scuffing and the intake of water.
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.
Due to it being significantly softer than the other types of rubbers used for soccer ball bladders, latex is generally seen as the premier material. Though, this same perception may not hold as true for practice balls or even game balls at lower levels of competition. This is because latex bladders retain air worse than all of the other soccer ball bladder materials and will need to be re-inflated more often.
The most commonly used materials for casing are PolyUrethane(PU) and PolyVinyl Carbonate (PVC), synthetic leather or a combination of PU and PVC. You can distinguish the type of casing used by touch. Balls that uses PVC usually have a hard exterior but are cheap and durable. PU cased balls are softer to the touch, high in quality and more responsive than PVC balls. Synthetic leather balls offer increased control hence ideal for professional matches or high-level playing. You will also notice a glossy finish on all soccer balls. This comes in handy in minimizing scuffing and water damage to the balls.
I’ll be honest right out of the gate in saying that I don’t have any experience with Senda. But after looking at this ball, I will have to try one out soon! Senda brings a very classic look to its ball, giving you a throwback to days gone by. It has 32 panels and claims that it can be used outdoors, indoors, and on turf. It is hand stitched with premium leather and has four layers of hybrid polyester and cotton linings between the cover and the bladder to help it last longer. It is NHFS approved with its latex bladder, so it would be great for use in high school matches. And especially considering it’s low cost.
As an International Match Standard and NFHS (high school) and NCAA-approved ball, this one gets a lot of play out of high schools and colleges in the United States. And for good reason. Every time I played with a select ball, I knew what to expect and I got each and every time. Coming in a number of colors, this ball can be tailored to match your team while still looking classy with the white to contrast it. It has a latex bladder and is hand-stitched. This is a premium match soccer ball for the price of a practice ball. Definitely a ball to consider looking into.
Size 5 is the official size for professional matches. Therefore, this ball is only available in this size. Do not use this soccer ball on concreted areas. Its unique rubber uses Puma Airlock Valve Technology (PAL) in order to facilitate proper airlock technology. This ball features Perimeter Balance Technology (PBT) which enables it to maintain impressive flight characteristics. https://www.youtube.com/watch?v=j2Xn84L3Kcs