The Scarpa Diadora Shark Stable Impact S1P SRC shoe in breathable polyester with aluminum toe cap.
- Spring/Summer
- Breathable polyester upper
- Anti-perforation fabric insole
- Shark line
- Security level S1P SRC ESD
The new Diadora Shark Stable Impact Low S1P SRC ESD safety shoes are born from the Diadora research laboratories, specific protective footwear for the warmer seasons, created using increasingly cutting-edge technologies to guarantee the worker maximum performance. The new Stable Impact system gives the shoe great cushioning, reactivity and comfort, ensuring that the user can perceive absolute comfort regardless of the force exerted and therefore regardless of their weight.
The sporty and attractive design of this low shoe is also characterized by the technological K Sole anti-perforation insole made with overlapping layers of special fabrics which guarantee high resistance as well as lightness and flexibility; furthermore this insole has the advantage of covering the entire surface of the insole, thus guaranteeing absolute protection of the entire foot.
Let's see the other technical properties of the Diadora Shark Stable Impact Low S1P:
- Upper in breathable and water-repellent 350 g/m² polyester technical fabric
- Air Mesh lining with anti-slip microfibre
- Resistant 200J aluminum tip with excellent resistance to corrosion and chemical agents
- TPU toe cover that protects the tip from direct stress
- D-Light polyurethane midsole 20% lighter than traditional midsoles
- Removable PU foam insole with antistatic and micro-perforated active carbons
- Compact PU tread, antistatic, resistant to abrasion, slipping and hydrocarbons
- Comfort 11 fit with a size range from 35 to 48 to adapt perfectly to a female audience
The Diadora Shark Stable Impact Low S1P SRC ESD safety shoes are also equipped with ESD certification, ideal for all sectors where it is necessary to contain the accumulation of static energy, and DGUV 112/191 certification which allows the addition of insoles orthopedic, maintaining the safety properties unchanged.