Abstract
Mechanical engineers have adapted 3D coordinate technology in the design and implementation of cranes to accelerate the production of construction industries, especially tall structures such as buildings and bridges. Structural engineering projects such as buildings, infrastructure, and bridges are central to the development of human civilization. However, it is also a source of some types of accidents and even disasters, which will be referred to in this paper as structural engineering disasters. This paper discusses the concept, types, and characteristics of structural engineering disasters, especially those that talk about the use of high-level 3D coordinate equipment (tower or mobile cranes) and ways to mitigate them. The accidents in practice occur due to dynamic balance defects during equipment operation, which is usually due to incorrect selection or behavior on the construction site, installation, maintenance, operation, or ambient environmental conditions. Structural engineering disasters occur frequently and globally because they are closely related to human behavior and performance. This paper confirms that solutions can be found entrepreneurial to manage the situation to reach the appropriate operation to mitigate the accidents, through implementing the proposed administrative and engineering recommendations related to an accurate scientific method to meet these challenges. The engineering recommendations are based on ensuring the proper implementation of maintenance, operation, and calibration under the engineering standards. While the administrative recommendations focus on ensuring the follow-up of the safety procedures for implementing maintenance programs and the appropriate behavior of operator and scientifically signal person to meet these challenges.
Highlights
Advances in cosmic civilization made 3D coordinate technology play an important role in engineering industries, especially the civil and construction industry
The tower and mobile crane fail due to vibrationinduced poor dynamic balance in operation, and the tower crane fails due to the straightened failure of the crane's steel support structure [9]
The Occupational Safety and Health Administration (OSHA) has guidelines several workplace safety standards within crane layout planning (CLP) of modular integrated construction (MiC) to reduce these risks or accidents, so site workers should follow these instructions to increase the level of safety
Summary
Advances in cosmic civilization made 3D coordinate technology play an important role in engineering industries, especially the civil and construction industry. Not to mention the number of injuries or damage to the cranes, equipment, and buildings around them In light of this danger, there is always an urgent necessity to study the sources of accidents to find suitable solutions for them. Few studies have concerned the development of crane layout planning (CLP) in construction projects of modular integrated construction (MiC). The movement of the crane is repeated to suspend the load and transport it to the specified location This requires careful planning such as selecting a suitable crane and choosing the position of the crane in terms of productivity and safety so that the performance is carried out accurately and the transfer process is successful. Some secondary data was collected from several research articles, books, online cranes companies, and previous research
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