Dynamic Analysis in the Design of Shelving Systems
Rack systems, especially industrial rack systems, are greatly affected by dynamic loads because they usually have high capacities and need to carry high rack loads. Therefore, it is extremely important to consider the effects of dynamic loads during the design of industrial rack systems. Dynamic analysis helps determine how rack systems are affected by earthquakes, winds and other vibration sources.
Dynamic analysis is a type of analysis that takes into account the effects of fixed loads and moving loads. Dynamic analysis of industrial rack systems is important to accurately determine the load capacity of the rack systems to be designed. Therefore, the behavior of rack systems under moving loads, vibrations and displacements are taken into account during dynamic analysis.
Dynamic analysis is performed using computer-aided engineering software. These software can determine the critical vibration modes of the system by examining the dynamic behavior of rack systems. These modes are the factors that determine the design requirements for the rack system.
Dinamik analiz, birçok farklı yöntemle gerçekleştirilebilir. Bunlar arasında zaman etki analizi, frekans etki analizi, modal analiz ve spektral analiz gibi yöntemler yer alır. Tasarım yapılmadan önce, hangi yöntemin kullanılacağına karar verilir. Genellikle, raf sistemlerinin dinamik analizi için, zaman etki analizi veya frekans etki analizi yöntemleri kullanılır.
During design, dynamic analysis determines how racking systems will respond to earthquakes, winds or other vibration sources, ensuring that the racking system design is safe and durable. In addition, the results obtained during dynamic analysis help to make the right choice by determining the load capacity required for the racking system.
Dynamic analysis is an important design criterion for racking systems. Racking systems, especially high storage capacity industrial racking systems, should be designed to protect important investments and human health during natural disasters such as earthquakes. Dynamic analysis is used to understand the behavior of racking systems under earthquake loads and to optimize their designs according to these conditions.
Dynamic analysis uses mathematical methods to examine the vibrations of racking systems and their dynamic behavior under compelling loads such as earthquakes. Racking systems generally have a naturally high capacity to absorb vibrations due to their high rigidity. However, under compelling loads such as earthquakes, this capacity may be insufficient and racking systems may be seriously damaged.
Dynamic analysis includes structural design and material selection for racking systems, as well as accurate calculations of connection points and other details. A correct dynamic analysis can provide the information needed to understand the behavior of racking systems under earthquake loads and optimize their designs.
Dynamic analysis can be performed for racking systems using different methods. For example, the tremor characteristics of racking systems can be modeled and analyzed using the finite element method. This method allows racking systems to be modeled accurately and provides information about how they will behave under earthquake loads.
In addition, analyses can be performed for racking systems in the time domain or frequency domain. Time domain analysis requires accurate modeling of racking systems and is related to real-time situations. Frequency domain analysis allows racking systems to be modeled accurately by examining their frequency responses.
