Compression and bending performances of carbon fiber reinforced lattice-core sandwich composites

“…However, a soft 3D lattice core that has failed by core buckling would lead to a ductile deformation mode [27]. Stiff skins also lead to debonding for CFRC sandwich panels with 3D lattice cores [24].…”

“…George et al [23] revealed that the strength and moduli of hybrid cores are found to increase with foam density due to a combination of increase in foam strength and modulus and the retention of a more circular cross-section CFRP truss that is less susceptible to elastic buckling. Fan et al [24] determined that cell dimensions, the fracture toughness of the adhesive and the strength of the sandwich skin decide the critical load capacity of a lattice core sandwich structure. To improve the shear performance of pyramidal lattice core sandwich structures, Yuguo Sun and Liang Gao [25] presented an improved pyramidal lattice truss core sandwich structure by introducing a series of parallel-distributed crossbars to core members.…”

Compressive and bending behaviours of wood-based two-dimensional lattice truss core sandwich structures

“…However, a soft 3D lattice core that has failed by core buckling would lead to a ductile deformation mode [27]. Stiff skins also lead to debonding for CFRC sandwich panels with 3D lattice cores [24].…”

“…George et al [23] revealed that the strength and moduli of hybrid cores are found to increase with foam density due to a combination of increase in foam strength and modulus and the retention of a more circular cross-section CFRP truss that is less susceptible to elastic buckling. Fan et al [24] determined that cell dimensions, the fracture toughness of the adhesive and the strength of the sandwich skin decide the critical load capacity of a lattice core sandwich structure. To improve the shear performance of pyramidal lattice core sandwich structures, Yuguo Sun and Liang Gao [25] presented an improved pyramidal lattice truss core sandwich structure by introducing a series of parallel-distributed crossbars to core members.…”

Compressive and bending behaviours of wood-based two-dimensional lattice truss core sandwich structures

“…Therefore, lattice sandwich panels are expected to be promising candidates for integrated TPS. However, up to now, only metal [7][8][9] and fiber reinforced resin matrix composite [10,11] lattice sandwich panels were reported. Wadley [7,8], Tian [9] developed several manufacture techniques to fabricate lattice core sandwich panels with aluminum, stainless steel nickel and copper.…”

“…Wadley [7,8], Tian [9] developed several manufacture techniques to fabricate lattice core sandwich panels with aluminum, stainless steel nickel and copper. Fang [10] and Wu [11] reported an interweaving and hot compression molding method for fabricating the lattice sandwich panels with carbon and glass fiber reinforced resin matrix composites. Unfortunately, both the metal and fiber reinforced resin matrix composite lattice sandwich panels cannot be used for integrated TPS, owing to their low melting point and weak oxidation resistance under high temperature environment.…”

Fabrication and heat transfer characteristics of C/SiC pyramidal core lattice sandwich panel

“…FAN Hualin made studies of changes in bending strength of lattice materials re-lated to thickness of panel [6] in 2013. In 2014 after-wards, Wang B and Zhang G prepared 2D carbon fiber reinforced composite sandwich structure [7].…”

Preparation and Bending Properties of Lattice Sandwich Structure for Wooden Truss