Fabrication of Three-Dimensionally Deformable Metal Structures Using Precision Electroforming

Abstract: It is difficult to fabricate three-dimensional structures using semiconductor-process technology, because it is based on two-dimensional layered structure fabrication and the etching of thin films. In this study, we fabricated metal structures that can be dynamically deformed from two-dimensional to three-dimensional shapes by combining patterning using photolithography with electroforming technology. First, a resist structure was formed on a Cu substrate. Then, using a Ni sulfamate electroforming bath, a Ni s… Show more

“…Kumamoto et al [ 7 ] introduced a technique for fabricating metal structures that could be deformed from two-dimensional to three-dimensional shapes in response to hydrodynamic forces using photolithography and electroforming. The resulting structures had an average film thickness of 12.9 µm, a hardness of 600 HV, and a slit width of 7.9 µm.…”

Editorial for the Special Issue on Emerging Micro Manufacturing Technologies and Applications

“…Kumamoto et al [ 7 ] introduced a technique for fabricating metal structures that could be deformed from two-dimensional to three-dimensional shapes in response to hydrodynamic forces using photolithography and electroforming. The resulting structures had an average film thickness of 12.9 µm, a hardness of 600 HV, and a slit width of 7.9 µm.…”

Editorial for the Special Issue on Emerging Micro Manufacturing Technologies and Applications

Advances in magnetic field-assisted ECM—from magnetoelectric effects to technology applications