Samsung Galaxy S10 Gear4 D3O Clear Crystal Palace case - 15-04015
Samsung Galaxy S10 Gear4 D3O Clear Crystal Palace case - 15-04015
Samsung Galaxy S10 Gear4 D3O Clear Crystal Palace case - 15-04015
Samsung Galaxy S10 Gear4 D3O Clear Crystal Palace case - 15-04015
Samsung Galaxy S10 Gear4 D3O Clear Crystal Palace case - 15-04015
Gear4

Samsung Galaxy S10 Gear4 D3O Clear Crystal Palace case - 15-04015

Regular price $49.99 $0.00 Unit price per
       
   
 
Designed to show off the original design of the device, the Gear4 Crystal Palace case features a sleek transparent construction with crystal clear D3O® inside the case.

Description


Designed to show off the original design of the device, the Gear4 Crystal Palace case features a sleek transparent construction with crystal clear D3O® inside the case.

Constructed of clear TPU, this slim-fitting case boasts injection-moulded D3O® technology with a PC backplate made of the same material used in bullet-proof glass and a raised bezel for complete drop protection.

Military Grade Drop Protection 10ft
PROTECTION
Gear4 creates ultra-slim, ultra-stylish, ultra-protective cases that deliver the reassurance that consumers want in a case. Using real phones, Gear4 cases are put through rigorous independent testing to military standards and also undergo Quality Control testing which includes, bend, rub, abrasion, color transfer and fit testing so consumers can be confident that Gear4 products are built to the highest standards to really take an impact.

D3O Impact Protection Logo
APPROVED BY D3O®
D3O® is a world-renowned specialist impact protection company, that uses its unique knowledge and know-how to advise regulatory bodies on the best practice for impact protection.

D3O® is a patented material proven to deliver superior impact protection through advanced shock absorption. D3O® is used by the military and medical field as well as in workwear, sports apparel, motorcycle apparel and footwear.

D3O® material has a unique molecular structure is soft and flexible, but on shock, the molecules lock together causing impact energy to dissipate which reduces force and then returns to its flexible state. The greater the force of the impact, the more the molecules lock together and the greater the protection.