Static Structural Behavior of Wire Bearings Compared to Conventional Bearings: Exploring Design and Operational Parameters
Wire bearings, with their unique architecture using wires as raceways and lighter materials for rings, exhibit distinct structural behavior compared to conventional bearings, offering advantages like weight and inertia reduction but requiring specific design considerations due to phenomena like wire twisting.
Mechanical Properties and Fracture Behavior of Graphene Ribbons with Suspended Proof Masses for Nanoelectromechanical Systems
The mechanical properties, including resonance frequencies, quality factors, spring constants, and built-in stresses, of different types of graphene ribbon devices with suspended proof masses were characterized and compared. The Young's modulus and fracture strain of double-layer graphene were also determined.
Legendary Mechanical Prowess of My Grandfather: Tales from the Border Town of El Paso
My grandfather possessed an exceptional talent for understanding and repairing mechanical devices, which he used to support his modest shop on the outskirts of El Paso, Texas, a border town with a unique character.
Nonintrusive Learning of Nonlinear Lagrangian Reduced-Order Models for Mechanical Systems
A two-step approach is proposed to learn nonlinear Lagrangian reduced-order models (ROMs) of nonlinear mechanical systems directly from data, without requiring access to the full-order model operators. The method first learns a linear Lagrangian ROM via Lagrangian operator inference and then augments it with nonlinear terms learned using structure-preserving machine learning.
The Interplay Between Symmetries and Impact Effects on Hybrid Mechanical Systems
Understanding the interplay between symmetries, mechanical connections, and impacts in hybrid mechanical systems.
Multi-mode Fault Diagnosis Datasets of Gearbox under Variable Working Conditions
Gearbox fault diagnosis datasets facilitate testing new methods effectively.
Deployable Polyhedrons with One-DOF Radial Transformation: Innovative Kinematic Solutions for Transformable Polyhedra
提案された機構戦略に基づく一自由度同期放射運動を持つキリガミアルキメデス多面体の設計と変換可能性に関する革新的な解決策。
Understanding Fault Signals with Prototype-Matching
The author proposes the Prototype Matching Network (PMN) to enhance interpretability in mechanical fault diagnosis by combining prototype-matching with autoencoder. The PMN offers insights into classification logic, typical fault signals, and frequency contributions for better representation learning.
Deployable Polyhedrons with One-DOF Radial Transformation: Kinematic Solutions and Transformations
The author proposes a family of kirigami Archimedean polyhedrons based on spatial 7R linkages to achieve one-DOF radial transformations, enabling rich configurational changes. This innovative approach facilitates applications in aerospace exploration, architecture, and metamaterials.
Time-optimal Point-to-point Motion Planning: Two-stage Approach
The author proposes a two-stage approach to time-optimal point-to-point motion planning, combining fixed and variable time grids for computational manageability and avoidance of interpolation errors. The integration with an asynchronous NMPC update scheme facilitates online replanning.
© 2024 by Linnk AI