A lattice structure according to an embodiment of the invention comprises a plurality of struts integrally connected to one another at a plurality of nodes, wherein the plurality of struts are arranged into at least a first region comprising a first repeating strut arrangement, a second region comprising a second repeating strut arrangement, the first repeating strut arrangement being different to the second repeating strut arrangement, and a boundary region disposed between the first region and the second region, the boundary region comprising a plurality of struts configured to connect nodes in the first region to nodes in the second region, a strut arrangement in the boundary region being different to the first and second repeating strut arrangements. The first repeating strut arrangement and/or the second repeating strut arrangement may be configured based on a crystallographic lattice, including but not limited to the Bravais lattices. Such an arrangement of lattices can mimic the polygrain structure in crystals so as to enhance the strength and ductility of the lattice structure, using strengthening mechanisms analogous to those in crystalline alloys. Methods and apparatus for designing a lattice structure are also disclosed.

A lattice structure according to an embodiment of the invention comprises a plurality of struts integrally connected to one another at a plurality of nodes, wherein the plurality of struts are arranged into at least a first region comprising a first repeating strut arrangement, a second region comprising a second repeating strut arrangement, the first repeating strut arrangement being different to the second repeating strut arrangement, and a boundary region disposed between the first region and the second region, the boundary region comprising a plurality of struts configured to connect nodes in the first region to nodes in the second region, a strut arrangement in the boundary region being different to the first and second repeating strut arrangements. The first repeating strut arrangement and/or the second repeating strut arrangement may be configured based on a crystallographic lattice, including but not limited to the Bravais lattices. Such an arrangement of lattices can mimic the polygrain structure in crystals so as to enhance the strength and ductility of the lattice structure, using strengthening mechanisms analogous to those in crystalline alloys. Methods and apparatus for designing a lattice structure are also disclosed.

A cooker with a gasket may include a top plate on which a plurality of burners may be placed; a manifold panel provided in front of the top plate and including thereon a plurality of knobs to control output powers of the plurality of burners; and a gasket that extends along a front end of the top plate and is compressed between the top plate and the manifold panel to hermetically seal the top plate and the manifold panel.

The invention relates to an elongate profile extending in a longitudinal direction and having a first end and a second end, wherein between the first end and the second end the profile has at least one cutting line forming a cutting pattern for at least one profile section to be removed from the profile, wherein after removal of the at least one profile section from the profile the first end of the profile is bendable towards the second end of the profile and/or vice versa.

The invention relates to an elongate profile extending in a longitudinal direction and having a first end and a second end, wherein between the first end and the second end the profile has at least one cutting line forming a cutting pattern for at least one profile section to be removed from the profile, wherein after removal of the at least one profile section from the profile the first end of the profile is bendable towards the second end of the profile and/or vice versa.

A multistable compliant mechanism is formed by connecting sequentially multiple basic units front to end to form a closed annular structure. Each basic unit includes two flexible hinges perpendicular to each other on different planes and two rigid connection parts for connecting the flexible hinges. The two flexible hinges are connected by a rigid connection part, and one of the flexible hinges is connected to a flexible hinge of an adjacent basic unit through the other rigid connection part. Lengths of two rigid connection parts in a same basic unit are equal, but lengths of rigid connection parts of different basic units are not necessarily equal. The multistable compliant mechanism features the continuous rotation and multi-steady state of a tri-compliant mechanism. The multistable compliant mechanism also features variable mechanism topology, an adjustable unit number, easy implementation, and promotion. A method for steady state analysis of the multistable compliant mechanism is also provided.

A multistable compliant mechanism is formed by connecting sequentially multiple basic units front to end to form a closed annular structure. Each basic unit includes two flexible hinges perpendicular to each other on different planes and two rigid connection parts for connecting the flexible hinges. The two flexible hinges are connected by a rigid connection part, and one of the flexible hinges is connected to a flexible hinge of an adjacent basic unit through the other rigid connection part. Lengths of two rigid connection parts in a same basic unit are equal, but lengths of rigid connection parts of different basic units are not necessarily equal. The multistable compliant mechanism features the continuous rotation and multi-steady state of a tri-compliant mechanism. The multistable compliant mechanism also features variable mechanism topology, an adjustable unit number, easy implementation, and promotion. A method for steady state analysis of the multistable compliant mechanism is also provided.

The invention relates to an elongate profile extending in a longitudinal direction and having a first end and a second end, wherein between the first end and the second end the profile has at least one cutting line forming a cutting pattern for at least one profile section to be removed from the profile, wherein after removal of the at least one profile section from the profile the first end of the profile is bendable towards the second end of the profile and/or vice versa.

An assembled structure includes multiple first assembling units, each of the first assembling units comprising main body parts and connection parts, wherein the main body parts have a profile shape of a polygon having 6n equal-length sides, wherein n is a positive integer; and the connection parts are provided on each equal-length side of each main body part; and the connection parts on each equal-length side are connected to each neighboring first assembling unit by a sliding pair, and the sliding direction of the sliding pair is the same as the extension direction of the sliding pair on the equal-length side on which the sliding pair resides.

Embodiments of the present technology are directed to a grooved composite industrial block product. The industrial block products described herein may be manufactured from plastic materials. Methods for manufacturing such grooved composite block products are additionally described herein, and comprise filling a grooved block mold with a polymeric mixture comprising plastic materials. The grooved composite block products described herein may be utilized in various industrial applications, including as railroad ties and industrial matting.