Engineered origami crease perforations for optimal mechanical performance and fatigue life
Perforating crease lines has been widely adopted as a practical method for designing thick
engineering origami structures. Perforations inevitably reduce crease stiffness and thus …
engineering origami structures. Perforations inevitably reduce crease stiffness and thus …
Self‐folding metal origami
Origami‐based techniques for creating 3D shapes from 2D patterns via folding have moved
from the domain of art to practical engineering. Flat sheets are an appealing starting material …
from the domain of art to practical engineering. Flat sheets are an appealing starting material …
Performance management within the Dutch steel processing industry
RJB Van der Meij, DJ Edwards, C Roberts… - Journal of Engineering …, 2023 - emerald.com
Purpose A comprehensive literature review of performance management within the Dutch
steel processing industry is presented. The purpose of this paper is to analyse the motives …
steel processing industry is presented. The purpose of this paper is to analyse the motives …
Effects of perforated creases on the mechanical behavior and fatigue life of thick origami structures
Perforating crease lines has been widely adopted as a practical method for achieving
thickness accommodation in designing engineering origami structures. In a previous work …
thickness accommodation in designing engineering origami structures. In a previous work …
[HTML][HTML] Effects of perforated crease line design on mechanical behaviors of origami structures
HY Hwang - International Journal of Solids and Structures, 2021 - Elsevier
Recently, origami structures have been widely studied for various applications such as
mechanical, electrical, bio, and nanosystems. Unlikely paper-like materials, engineering …
mechanical, electrical, bio, and nanosystems. Unlikely paper-like materials, engineering …
Large-scale modular and uniformly thick origami-inspired adaptable and load-carrying structures
Y Zhu, ET Filipov - Nature Communications, 2024 - nature.com
Abstract Existing Civil Engineering structures have limited capability to adapt their
configurations for new functions, non-stationary environments, or future reuse. Although …
configurations for new functions, non-stationary environments, or future reuse. Although …
Origami-inspired sacrificial joints for folding compliant mechanisms
Folding is a manufacturing method which can create complex 3D geometries from flat
materials and can be particularly useful in cost-sensitive or planar-limited fabrication …
materials and can be particularly useful in cost-sensitive or planar-limited fabrication …
A self-folding pneumatic piston for mechanically robust origami robots
C Liu, A Orlofsky, CD Kitcher… - IEEE Robotics and …, 2019 - ieeexplore.ieee.org
This letter presents a self-folding piston-style actuator for flat-foldable robots. Despite the
variety of soft and planar actuators used in origami robots, extensional actuators are …
variety of soft and planar actuators used in origami robots, extensional actuators are …
Investigating the design and process parameters of folded perforated sheet metal
Origami-based sheet metal (OSM) bending is an extension of rigid origami technique, where
the final 3D structure is created from a single 2D flat pattern by bending. The key aspect of …
the final 3D structure is created from a single 2D flat pattern by bending. The key aspect of …
Folding Control of Hydrogel Platforms through Pattern Design and Light Illumination
Herein, we demonstrated a strategy to control the folding ability of hydrogel platforms
through pattern design and light illumination. Hydrogel platforms, which consist of a …
through pattern design and light illumination. Hydrogel platforms, which consist of a …