Abstract:
A heat-generating sheet including: an electrically conductive sheet having a pseudo sheet structure, serving as a heat-generating region, in which electrically conductive linear-bodies, each having a diameter D of 100 μm or less and extending in one direction, are arranged at intervals; one or more first strip electrodes each electrically connected to one end in a longitudinal direction of each of the linear-bodies in the pseudo sheet structure; and second strip electrodes each electrically connected to another end in the longitudinal direction of each of the linear-bodies in the pseudo sheet structure, heat-generating regions, which serve as the heat-generating region, being formed between the second strip electrodes and the one or more first strip electrodes, wherein the heat-generating regions are coupled with the respective one or more first strip electrodes or the respective second strip electrodes so that conduction directions of adjacent heat-generating regions alternate with each other.
Abstract:
A dicing sheet base film includes a resin layer (A). The resin layer (A) contains: a norbornene-based resin (a1) that is a thermoplastic resin containing a structural unit derived from a norbornene-based compound; a styrene-based elastomer (a2); and an olefin-based thermoplastic resin (a3) other than the norbornene-based resin (a1) and other than the styrene-based elastomer (a2). The dicing sheet base film suppresses the occurrence of dicing debris, in particular filament-like dicing debris, during the dicing of a cut object without imparting physical energy such as electron rays and γ rays, and has sufficient expandability in the expanding process.
Abstract:
A wiring sheet for three-dimensional molding includes a pseudo-sheet structure including a plurality of conductive linear bodies arranged at an interval; a first embedding layer; and a second embedding layer, the pseudo-sheet structure being sandwiched between the first embedding layer and the second embedding layer. The conductive linear bodies have a wave shape when viewed from above. A storage shear modulus at 23° C. of each of the first embedding layer and the second embedding layer is from 1×104 to 3×106 Pa. When a thickness of the first embedding layer is T1, a thickness of the second embedding layer is T2, and a thickness of the pseudo-sheet structure is T3, a specific relational equation is satisfied.
Abstract:
A thermal radiation heater includes: a heater element layer including a planar conductive body; at least one front surface side layer including an outermost layer and provided close to a front surface of the heater element layer; and at least one back surface side layer including an outermost layer and provided close to a back surface of the heater element layer. The outermost layer close to the front surface has an emissivity of 0.7 or more, and the outermost layer close to the back surface has an emissivity of 0.6 or less.
Abstract:
A laminate includes: a carbon nanotube sheet including a plurality of carbon nanotubes aligned preferentially in one direction within a plane of the sheet; and a first protection material having a surface in contact with the carbon nanotube sheet, the surface having a surface roughness Ra1 of 0.05 μm or more.
Abstract:
A film for producing a sheet for a multilayer optical recording medium, the sheet having a repeating structure containing a plurality of laminated optical recording layers, the sheet has a structure including a unit wherein an optical recording layer and an adhesive layer are laminated or a structure including a unit wherein an optical recording layer, a barrier layer and an adhesive layer are laminated, and a maximum height roughness of the optical recording layer or the barrier layer is 500 nm or smaller, the optical recording layer or the barrier layer is disposed on a process film on a face at a side for forming the optical recording layer or at a side for forming the barrier layer, the face at the side for forming the optical recording layer or at the side for forming the barrier layer having a maximum height roughness of 500 nm or smaller.
Abstract:
A sheet-shaped heat generator includes a pseudo sheet structure including a plurality of metal wires arranged at an interval, the metal wires each including a core including a first metal and a metal film provided on an exterior of the core, the metal film including a second metal different from the first metal, in which a volume resistivity of the first metal is in a range from 1.0×10−5 [Ω·cm] to 5.0×10−4 [Ω·cm], and a standard electrode potential of the second metal is +0.34 V or more.
Abstract:
The present disclosure provides a heat-generating sheet for use in three-dimensional molding including: a pseudo-sheet structure in which plural electrically conductive linear bodies extending unidirectionally are arranged spaced apart from each other, each of the electrically conductive linear bodies having a diameter of from 7 μm to 75 μm; and a resin protective layer provided at a side of one surface of the pseudo-sheet structure. In this heat-generating sheet for use in three-dimensional molding, the total thickness of layers provided at the side of the pseudo-sheet structure at which the resin protective layer is provided is from 1.5 times to 80 times the diameter of the electrically conductive linear bodies. The present disclosure also provides a surface heat-generating article in which the heat-generating sheet for use in three-dimensional molding is used.
Abstract:
A sheet includes a pseudo-sheet structure including a plurality of linear-bodies with a volume resistivity R of from 1.0×10−7 Ωcm to 1.0×10−1 extending in one direction, aligned parallel to one another, and spaced apart from one another, satisfies the relation: L/D≥3, wherein D represents the diameter of the linear-bodies, and L represents the spacing between adjacent ones of the linear-bodies, and also satisfies the relation: (D2/R)×(1/L)≥0.003, wherein D represents the diameter of the linear-bodies, L represents the spacing between adjacent ones of the linear-bodies, R represents the volume resistivity of the linear-bodies, and D and L are in units of cm. A heating element and a heating device each include the sheet.
Abstract:
An adhesive sheet includes: a carbon nanotube sheet including a plurality of carbon nanotubes aligned preferentially in one direction within a plane of the sheet; and an adhesive agent layer including an adhesive agent, the adhesive agent layer being curable.