Abstract: Durable superhydrophobic components have a superhydrophobic material disposed (e.g., disposed) thereon that exhibits an apparent advancing dynamic contact angle of ?about 150° and a roll-off angle of about ?15° for water after at least 100 abrasion cycles. The superhydrophobic material may comprise a low surface energy material and a polymeric material. The superhydrophobic material may be self-healing and capable of recovering its wettability after damage. In yet other aspects, a component comprises a surface that is superhydrophobic and reduces drag in turbulent flow conditions. The surface has an apparent advancing dynamic contact angle of ?about 150° and a roll-off angle of ?about 15° for water, and a product of dimensionless roughness (k+) and a higher-pressure contact angle hysteresis of less than or equal to about 5.8. Methods of making such materials are also provided.

Abstract: Durable superhydrophobic components have a superhydrophobic material disposed (e.g., disposed) thereon that exhibits an apparent advancing dynamic contact angle of ?about 150° and a roll-off angle of about ?15° for water after at least 100 abrasion cycles. The superhydrophobic material may comprise a low surface energy material and a polymeric material. The superhydrophobic material may be self-healing and capable of recovering its wettability after damage. In yet other aspects, a component comprises a surface that is superhydrophobic and reduces drag in turbulent flow conditions. The surface has an apparent advancing dynamic contact angle of ?about 150° and a roll-off angle of ?about 15° for water, and a product of dimensionless roughness (k+) and a higher-pressure contact angle hysteresis of less than or equal to about 5.8. Methods of making such materials are also provided.

Abstract: A blast reducing structure having a first web and a second web. Each of the webs having a first section defining a first plane, a second section defining a second plane, the second plane being generally parallel to the first plane, an interconnecting section interconnecting the first section to the second section. The first web is disposed in mirrored relationship to the second web to define a volume. An energy absorbing liquid is disposed in the volume, such that the first section, the second section, and the interconnecting section cooperate to collapse in response to an impact pulse, thereby dissipating force associated with the impact pulse. Alternate volumes may be air-filled so as to accept the expelled liquid.

Abstract: A blast reducing structure having a first web and a second web. Each of the webs having a first section defining a first plane, a second section defining a second plane, the second plane being generally parallel to the first plane, an interconnecting section interconnecting the first section to the second section. The first web is disposed in mirrored relationship to the second web to define a volume. An energy absorbing liquid is disposed in the volume, such that the first section, the second section, and the interconnecting section cooperate to collapse in response to an impact pulse, thereby dissipating force associated with the impact pulse. Alternate volumes may be air-filled so as to accept the expelled liquid.