Abstract: Heated platform systems are disclosed herein. Heated platform systems according to the present disclosure include a fiber reinforced panel that has a heating element that is made from a plurality of conductive mats. The plurality of conductive mats are placed into electrical continuity with one another by electrical leads, and are electrically isolated from one another by electrical insulating interleaf layers that prevent electrical shunting of adjacent conductive mats.

Abstract: A pad is provided for supporting heavy loads and is capable of supporting loads of 100 tons or more. The pad has a core having a bi-directional grid formed from parallel fiberglass materials, with a first set of material at right angle to a second set of fiberglass materials and which grid surrounds a closed cell material, which is infused with resin to form a core. A fiberglass top surface, bottom surface and at least one sidewall is provided. The result is a pad able to distribute very heavy loads, is resistant to bending, durable and light weight.

Abstract: A pad is provided for supporting heavy loads and is capable of supporting loads of 100 tons or more. The pad has a core having a bi-directional grid formed from parallel fiberglass materials, with a first set of material at right angle to a second set of fiberglass materials and which grid surrounds a closed cell material, which is infused with resin to form a core. A fiberglass top surface, bottom surface and at least one sidewall is provided. The result is a pad able to distribute very heavy loads, is resistant to bending, durable and light weight.

Abstract: An elevated platform system includes a base support structure and a plurality of fiber reinforced polymer composite panels. The base support structure includes pilings secured to a ground surface and attachment cradles coupled to the pilings. The attachment cradles are in electrical continuity with the ground surface. The fiber reinforced polymer composite panels include a panel body portion, fibrous material surrounding the panel body portion, a non-conductive matrix forming at least a portion of an outer-most layer of the fiber reinforced polymer composite panel, and an electrically-conductive layer at least partially embedded in the non-conductive matrix. The fiber reinforced polymer composite panels are coupled to the attachment cradles, such that the electrically-conductive layer of the fiber reinforced polymer composite panel is in electrical continuity with the ground surface.

Abstract: An elevated platform system includes a base support structure and a plurality of fiber reinforced polymer composite panels. The base support structure includes pilings secured to a ground surface and attachment cradles coupled to the pilings. The attachment cradles are in electrical continuity with the ground surface. The fiber reinforced polymer composite panels include a panel body portion, fibrous material surrounding the panel body portion, a non-conductive matrix forming at least a portion of an outer-most layer of the fiber reinforced polymer composite panel, and an electrically-conductive layer at least partially embedded in the non-conductive matrix. The fiber reinforced polymer composite panels are coupled to the attachment cradles, such that the electrically-conductive layer of the fiber reinforced polymer composite panel is in electrical continuity with the ground surface.