• Title/Summary/Keyword: Free-form Panel

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A Basic Study of Free-form Concrete Panel Production Process using 3D Plastering Technique (3D Plastering 기법에 의한 Free-form Concrete Panel의 생산 프로세스 기초 연구)

  • Lim, Jeeyoung;oh, Jinhyuk;Kim, Sunkuk
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2022.04a
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    • pp.71-72
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    • 2022
  • In the case of free-form buildings, it is difficult to reuse the form for panel production because the shape and size of the interior and exterior panels of the building are different. In general, it is a free-form concrete panel (FCP) production technology using the existing plywood formwork, and the form is produced in a different shape each time and is discarded after only one use. The production of these disposable forms requires enormous resources, including materials, labor and time. Hence, it is necessary to develop innovative forms that can be reused for sustainable FCP construction. In this study, a technology has been developed that combines 3D Plastering Technique (3DPT) to produce FCP. By applying this technology to free-form building projects, the time and cost required for FCP production can be reduced. However, specific studies on the production process for this technology have not been done yet. Therefore, the objective of this study is a basic study of free-form concrete panel production process using 3D plastering technique.

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Analysis of Factors Related to Maintaining FCP Thickness in the Manufacturing Process of Freeform Concrete Panel (FCP(Free-form Concrete Panel)제작 과정에서 FCP두께유지에 관련한 영향요인 분석)

  • Jeong, Kyeong-Tae;Kim, Ki-Hyuk;Yun, Ji-Yeong;Song, Ha-Young;Lee, Dong-Hoon
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2019.11a
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    • pp.4-5
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    • 2019
  • With recent advances in computer technology, the ratio of free-form building designs to those of the past is increasing gradually. However, the current technology of free-form structure is very low. The core technology for free-form building implementation is the manufacturing technology of FCP (Free-form Concrete Panel), which indicates an unformed outside, and through the development of FCP manufacturing technology, the construction technology of free-form architecture can be enhanced. The inside and outside of an free-form building should be represented by the designer's intended curvature, and the panel's thickness by segment should be constant. For this reason, the technology that keeps the thickness of panels constant during the FCP production process is a key technology that can improve the quality of FCP. In this study, a basic study on ways to maintain a constant thickness of FCP is conducted.

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Decision Factors on Free-form Concrete Panel Sizes Produced by CNC Machines (CNC machine에 의해 생산 가능한 FCP 크기의 결정요인)

  • Lim, Jeeyoung;Lee, Donghoon;Moon, Yu-Mi;Kim, Sunkuk
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2015.11a
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    • pp.204-205
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    • 2015
  • Demands for free-form buildings are on the rise, but such building designs require most cost and longer construction schedule, with less constructability due to challenges in construction member production and installation. FCP production technology has been developed using CNC machine in a bid to resolve the difficulties of member production. Exterior finishing panels of free-form building design must be divided in size and shape that can be produced by CNC machine. To solve this problem, constraints of CNC machine and correlations between CNC machine and panel need to be reviewed. Thus, the purpose of this study is to analyze decision factors on free-form concrete panel sizes produced by CNC machines. Through this study, FCP size can be optimized, which in turn can lead to improved FCP productivity and aesthetical quality of free-form building designs determined by the pattern of exterior finishing panels. CNC machine-enabled free-form concrete panel production technology will apply on site in the future, which will not only maximize the economic benefits of the technology but also support shorter construction schedule and better constructability.

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Limitation and Solution of Free-form Silicone Mold (FSM) used in Free-form Concrete Panel (FCP) Manufacture (FCP(Free-form Concrete Panel) 제작에 사용되는 FSM(Free-form Silicone Mold)의 한계와 해결방안)

  • Jeong, Kyeong-Tae;Youn, Jong-Young;Yu, Chae-Yeon;Lee, Dong-Hoon3
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2023.11a
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    • pp.21-22
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    • 2023
  • In order to manufacture high-quality free-form concrete panel (FCP), it is necessary to analyze the limitations of free-form silicone mold (FSM) and conduct technology development research. Currently, the FSM used in FCP manufacture is classified into a side silicon mold(SSM) and a lower silicon mold(LSM). In this study, the limitations of each silicon mold were analyzed and solutions were proposed. In the case of side silicon mold, there is a limit to cannot supporting the side pressure of concrete. Therefore, a mold stacking method was proposed, and at the same time, a process of correcting the movement value of the rod was proposed. In the case of the lower silicon mold, there is a limit to completely implementing the design shape. Therefore, a real-time scanning method and a process of displaying FCP shape coordinates were proposed. The results of this study are expected to be used as basic data for manufacturing high-quality FCP.

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A Study on the Requirements for the Development of Side Mould for FCP(Free-form Concrete Panel) Manufacturing Equipment (FCP(Free-form Concrete Panel)생산 장비용 측면 거푸집 개발을 위한 요구사항 분석연구)

  • Jeong, Kyeong-Tae;Yun, Ji-Yeong;Youn, Jong-Yeong;Lee, Donghoon
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2020.11a
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    • pp.12-13
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    • 2020
  • Free-form buildings usually have large curved shapes on the outside. In order to construct this curved shape, the exterior of the building must be divided into easy-to-manufacture shapes, and the segmented panel is called the FCP(Free-form Concrete Panel). These FCPs have different shapes and cannot reuse molds. To solve these problems, the researchers developed FCP manufacturing equipment to manufacture a mould of FCP. However, the developed equipment alone cannot completely manufacture FCP's mould. This is because there is no mould to implement side of FCP. Therefore, it is necessary to develop a side form of FCP that can be applied to FCP manufacturing equipment. To this end, this study analyzes the basic requirements that side mould should have before developing side mould.

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Development of Two-Sided Multi-Press Technology for FCP Shape Implementation (FCP 형상구현을 위한 양면다점프레스 기술 개발)

  • Jeong, Kyeong-Tae;Kin, Ki-Hyuk;Lee, Dong-Hoon
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2019.05a
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    • pp.83-84
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    • 2019
  • Free-form buildings refer to geometric external structures in curved form, unlike conventional structures with straight lines. The development of construction technologies for the implementation of these Free-form buildings is ongoing. However, there are still many restrictions on the construction technology of Free-form buildings, resulting in problems such as increased construction period and increased construction costs. Therefore, it is urgent to develop building technology for the construction of Free-form building in order to secure competitiveness in the global Free-form building market. Accordingly, this study proposes Two-sided multi-point press technology that can solve problems of existing technology and implement FCP(Free-form Concrete Panel).

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A Basic Study on the Development of Side Silicone Mold Support Device for Improving the Quality of FCP (FCP(Free-Form Concrete Panel) 품질 향상을 위한 측면 실리콘 거푸집 지지장치 개발 기초연구)

  • Jeong, Kyeongtae;Kim, Jihye;Lee, Donghoon
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2023.05a
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    • pp.165-166
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    • 2023
  • Free-form Concrete Panel(FCP) is each panel that composes the concrete exterior skin of Free-form building. FCPs contain curved surfaces, and FCPs have different curvature, size, and angles. In order to manufacture FCP, high technology is required, and it is currently difficult to manufacture it according to the design shape. In particular, many errors occur in the side shape of FCP. This is because when the side silicone mold is applied, it is installed without a coupling method between molds and support device. In this study, basic research was conducted to develop a side silicone mold support device to solve the above problems. We classified the required performance and derived the detailed requirements. Also, Based on this, we drew the basic design of the support device. We plans to conduct design improvement, mock-up making, and FCP manufacturing experiments through future research.

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Experimental Study on the Lateral Pressure Resistance of Free-form Concrete Panel (FCP) Side Form (FCP(Free-form Concrete Panel) 측면 거푸집의 측압 저항능력 실험)

  • Youn, Jong-Young;Yun, Ji-Yeong;Lee, Chang-Woo;Lee, Donghoon
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2021.05a
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    • pp.8-9
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    • 2021
  • FCP requires different curvatures and shapes according to the method of division, and it is necessary to manufacture a formwork accordingly. FCP production equipment consists of CNC equipment and side shape control equipment. This can be implemented in various shapes of upper, lower, and side surfaces. In the side shape control equipment, it is implemented as a variable side formwork. Among the required performance of the variable side formwork, there is stiffness against side pressure, which needs to be verified. Therefore, in this study, the FCP fabrication experiment is conducted with the developed variable side formwork. By analyzing the error in the shape of the fabricated FCP, the lateral pressure resistance capability of the side form is measured and verified.

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A Study on the Analysis of the Error Rate of Mixed Mortar Panel for Implementation Free-form Shape (비정형 형상구현을 위한 혼합모르타르 패널의 오차율 분석 연구)

  • Oh, Young-Geun;Jeong, Kyeong-Tae;Lee, Dong-Hoon
    • Journal of the Korea Institute of Building Construction
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    • v.20 no.2
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    • pp.155-162
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    • 2020
  • Since the third industrial revolution has been started in the 1980s, the form of buildings has been varied and atypical by the development of building technology. Such free-form building has a curved shape unlike the existing standard buildings, and to realize this, it is necessary to manufacture the free-from panel. The shape of the free-form panel must satisfy a limited error ratio compared with the design shape, and the technology to produce free-form panels is very difficult. However, there are many problems such as enormous cost and construction waste generation when implementing free-from construction. Therefore, the development of free-form panel manufacturing technology should be made to solve the problems caused by the free-form construction. In this study, the error rate analysis of the mixed mortar panel was conducted by selecting the proper mixing ratio of the mixed mortar for the shape of the free-form panel.

Proper Mixing Ratio for Securing Quality of Free-form Panel (비정형 패널의 형상 품질확보를 위한 적정 배합비 도출)

  • Kim, Min-Sik;Park, Chae-Wool;Kim, Ki-Hyuk;Do, Sung-Lok;Lee, Dong-Hoon
    • Journal of the Korea Institute of Building Construction
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    • v.19 no.5
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    • pp.449-456
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    • 2019
  • Recent developments in architectural technologies and programs have enabled architects to think creatively and design free-form architecture. however, there are many problems in the production technology of FCP(Free-Form Concrete Panel). In particular, reduced accuracy due to lack of free-form panel production technology can lead to redesign of buildings as a result, problems such as an increase in construction cost and period. Therefore, this experiment aimed to compensate the decrease of the accuracy according to the displacement difference and to derive the proper mixing ratio for maintaining the shape during the free-form panel curing. In this study, molds were made using paraffin that is a recyclable phase change material. Concrete Panel is usually produced from Portland cement, dead burn magnesia, phosphate, borax and fine aggregate. In this study, four mixing ratios of FCP were selected after each material was blended to determine the proper blending ratio of the fluidity phase, the water absorption rate and the water content of the test piece. FCP was fabricated on the basis of the selected four compounding ratios and thickness and error rate were measured. Based on the error rate of the measured FCP, the quality standard was satisfied among the four compounding ratios.