Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Computer-aided rotary crane stability assessment
https://orcid.org/0000-0002-0067-0384
Abstract This paper introduces a computer-aided approach for evaluating the stability of rotary cranes. Utilizing the Motion add-in within the SolidWorks package, a comprehensive numerical stability analysis was carried out. The interaction dynamics between the crane’s support system and the ground were modeled employing linear springs, while the rope system was characterized by a blend of linear spring and damper elements. The term “temporary loss of stability” was introduced to describe scenarios wherein one support loses contact with the ground. Furthermore, ramifications of overlapping control signals on crane operational safety were investigated. Validation of the numerical findings was accomplished through experimental tests conducted on an actual crane. This integrated methodology not only enhances the understanding of crane stability but also offers practical insights for optimizing crane operations in real-world settings.
Highlights Computer-aided method for assessing the stability loss of a crane has been proposed. The concept of temporary loss of stability has been introduced. Impact of overlapping control functions on safety during work cycle was analyzed. The method was verified on a real object (laboratory rotary crane).
Computer-aided rotary crane stability assessment
https://orcid.org/0000-0002-0067-0384
Abstract This paper introduces a computer-aided approach for evaluating the stability of rotary cranes. Utilizing the Motion add-in within the SolidWorks package, a comprehensive numerical stability analysis was carried out. The interaction dynamics between the crane’s support system and the ground were modeled employing linear springs, while the rope system was characterized by a blend of linear spring and damper elements. The term “temporary loss of stability” was introduced to describe scenarios wherein one support loses contact with the ground. Furthermore, ramifications of overlapping control signals on crane operational safety were investigated. Validation of the numerical findings was accomplished through experimental tests conducted on an actual crane. This integrated methodology not only enhances the understanding of crane stability but also offers practical insights for optimizing crane operations in real-world settings.
Highlights Computer-aided method for assessing the stability loss of a crane has been proposed. The concept of temporary loss of stability has been introduced. Impact of overlapping control functions on safety during work cycle was analyzed. The method was verified on a real object (laboratory rotary crane).
Computer-aided rotary crane stability assessment
https://orcid.org/0000-0002-0067-0384
Abstract This paper introduces a computer-aided approach for evaluating the stability of rotary cranes. Utilizing the Motion add-in within the SolidWorks package, a comprehensive numerical stability analysis was carried out. The interaction dynamics between the crane’s support system and the ground were modeled employing linear springs, while the rope system was characterized by a blend of linear spring and damper elements. The term “temporary loss of stability” was introduced to describe scenarios wherein one support loses contact with the ground. Furthermore, ramifications of overlapping control signals on crane operational safety were investigated. Validation of the numerical findings was accomplished through experimental tests conducted on an actual crane. This integrated methodology not only enhances the understanding of crane stability but also offers practical insights for optimizing crane operations in real-world settings.
Highlights Computer-aided method for assessing the stability loss of a crane has been proposed. The concept of temporary loss of stability has been introduced. Impact of overlapping control functions on safety during work cycle was analyzed. The method was verified on a real object (laboratory rotary crane).
Computer-aided rotary crane stability assessment
Kwiatoń, Paweł (Autor:in) / Cekus, Dawid (Autor:in) / Waryś, Paweł (Autor:in)
06.03.2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Computer-aided rotary crane stability assessment
| Elsevier | 2024
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