We recommend buying the Nike Mercurial Vapor 13 Elites FG boots. Whichever surface type you need, youll find every single option here at FOOTY.COM. Shoe geometry, placement of the cleats or studs, outsole construction and shoe plate stiffness influence the pressures under the foot. They tend to have more studs than other football boots and provide better support over a wider area, also reducing blisters. They often comprise of smaller, smoother plastic studs which can easily be inserted and removed whilst twisting and turning on fake turf. That being said I also accept that my knowledge on the subject is rather little, and would like to see a more complete answer, with references. A lot has changed in this area over the last couple of decades. More friction between the shoe and the ball will prevent slipping during contact and thus cause better precision. As we mentioned, we have FG and SG. However, traction features and low shoe weight were less important for the female players. In our first study we investigated the effect of five different shoe modifications and barefoot kicking on kicking precision (Hennig et al. insoles further help to reduce the amount of stud pressure one might feel. 50grams heavier than its FG counterpart. Learn more about Stack Overflow the company, and our products. They are also If only we could get a bit of that extra length. Between the shoes, model C was significantly better in accuracy as compared to the four other footwear conditions. Well, when youre as terrible as he is, youll also be searching for a boot that adds 10% pace, 20% skill, 15% concentrated power in shots, 5% strength and 50% accuracy. This guide is here to give you a little helping hand. and reduced the break in time required. Acidity of alcohols and basicity of amines. shorter to prevent excessive pressure being applied on the stud and causing it Cleat (shoe) - Wikipedia These football shoes are really useful for younger kids who may switch between indoor, sand-based Astroturf and firm grass pitches. Peak pressure patterns in four different soccer shoe models (averaged across running, cutting and kicking). Stud type and stud geometry influenced running times on artificial surface by almost 3% and different surface conditions (ice and snow versus dry firm grass) resulted in running time differences of approximately 20%. Therefore, it is surprising how little research has been published in the field of soccer shoes. Register a free Taylor & Francis Online account today to boost your research and gain these benefits: The influence of soccer shoe design on playing performance: a series of biomechanical studies, Biomechanics Laboratory , University of Duisburg-Essen , Essen, Germany, Department of Human Locomotion , Chemnitz University of Technology , Chemnitz, Germany, Does apparent outsole tread groove design represent mechanical traction, Footwear-induced changes in ankle biomechanics during unanticipated side-step cutting in female soccer players, Strategic Capabilities to Implement Mass Customization of Athletic Footwear: The Example of Miadidas, The effects of midsole bending stiffness on ball speed during maximum effort soccer kicks, Soccer game analysis of two world cupsplaying characteristics of women and men and possible consequences for gender-specific soccer shoes, Effect of shoe mass on soccer kicking velocity, Performance characteristics according to playing position in elite soccer, Characteristic plantar pressure distribution patterns during soccer-specific movements, A valid and reliable method for measuring the kicking accuracy of soccer players, Biomechanische Methoden zur Evaluation und Optimierung von Fuballschuhen, Game analysis by GPS satellite tracking of soccer players, The influence of soccer boot construction on ball velocity and shock to the body, Biomechanical variables and the perception of cushioning for running in various types of footwear, Soccer footwear and ball kicking accuracy, Perceived comfort and pressure distribution in casual footwear, A motion analysis of work-rate in different positional roles in professional football match play, Ball impact dynamics of instep soccer kicking, Gender differences in plantar loading during three soccer-specific tasks, The influence of soccer shoes on kicking velocity in full-instep kicks, Actual and perceived running performance in soccer shoes: A series of eight studies, Two types of ball-effector interaction and their relative contribution to soccer kicking, Higher plantar pressure on the medial side in four soccer-related movements.