The rapid urbanization and industrial growth have increased the demand in construction, maintenance, and infrastructure, leading to significant advancements in aerial work vehicle technology. This study focuses on the structural performance of ultra-high-strength steel plates of varying thicknesses used in telescopic booms, which is a critical component of aerial work vehicles. This study aims to address the cost issues associated with the previously used 5mm thick plates by evaluating the structural integrity of thinner plates. Using finite element analysis (FEA), the study analyzes stress and displacement for different thicknesses, specifically targeting the first boom segment, which bears the most load. The results indicate that while 3mm and 3.2mm thick plates are unsuitable due to buckling, the 4mm thick plate meets safety criteria with a safety factor of 2.51 and reduces costs by over 20%. By using 4mm thick ultra-high-strength steel for the first boom segment is cost-effective, providing structural integrity and an applicable solution for aerial work vehicle manufacturers.
본고는 ‘작품의 통합성’이 왕부지의 시학의 중심을 관통하는 중요한 이론으로 보고, 이를 시 창작의 과정을 따라가며 어떻게 적용되는지 검토하였다. 곧 시 쓰기 전의 창작 관념에서 神의 운용과 現量을 중시하며 ‘하나의 뜻’[一意]이 주도하도록 하였으 며, 실제 시를 쓰는 제작 과정에서는 전편과 통합된 투탈어를 강조하였고, 작품 완성 후 감상할 때는 ‘하얀 바탕의 빛나는 비단’으로 비유되는, 자연스러운 통합성을 이룬 작품을 이상으로 여겼다. 여기에서 現量은 詩想의 단계에서만 작용하는 것이 아니라, 구성의 전과정에 관여하였다. 情과 景도 작품의 통합성이란 관점에서 상호 의존적인 개념으로 정립되었다. 渾成과 平美의 미학도 작품의 통합성이 전제되어야 가능한 사 실도 확인되었다. 창작론, 작품론, 형태론을 연결시켜 왕부지의 시학을 재구축하려 시도했다는 점에서 학계에 일정한 기여를 하리라 본다.
High Integrity Container (HIC) made of polymer concrete was developed for the efficient treatment and safe disposal of radioactive spent resin and concentrate waste in consideration of the disposal requirements of domestic disposal sites. Permission for application of Polymer Concrete High Integrity Container (PC-HIC) to the domestic nuclear power plants (NPPs) has been completed or is under examination by the regulatory agency. In the case of 860 L PC-HIC for very-low-level-waste (VLLW) or low low-level-waste (LLW), the application of four representative NPPs has been approved, and the license for extended application to the rest NPPs is also almost completed. A licensing review is also underway to apply 510 L PC-HIC for intermediate and low-level-waste (ILLW) to representative nuclear power plants. In order to handle and efficiently store and manage PC-HICs and high-dose PCHIC packages, a gripper device that can be remotely operated and has excellent safety is essential, and the introduction of NPPs is urgent. The conventional gripper device developed by the PC-HIC manufacturer for lifting test to evaluate the structural integrity of PC-HIC requires a rather wide storage interval due to its design features, and does not have a passive safety design to handle heavy materials safely. In addition, work convenience needs to be reinforced for safety management of high radiation work. Therefore, we developed a conceptual design for a gripper device with a new concept to minimize the work space by reflecting on-site opinions on the handling and storage management conditions of radioactive waste in NPPs, and to enhances work safety with the passive safety design by the weight of the package and the function of checking the normal seating of the device and the normal operation of the grip by the detector/indicator, and to greatly improves the work efficiency and convenience with the wireless power supply function by rechargeable battery and the remote control function by camera and wireless monitoring & control system. Through design review by experts in mechanical system, power supply and instrumentation & control fields and further investigations on the usage conditions of PC-HICs, it is planned to facilitate preparations for the application of PC-HIC to domestic NPPs by securing the technical basis for a gripper device that can be used safely and efficiently and seeking ways to introduce it in a timely manner.