• Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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• 2011.04a
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• pp.725-726
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• 2011

• Proceedings of the Membrane Society of Korea Conference
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• 2008.05a
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• pp.198-201
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• 2008

• IE interfaces
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• v.15 no.3
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• pp.297-307
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• 2002

Since the pressure for recycling has been increasing, the disassembly, which is pre-process of recycling, has been becoming very important process. The goal of disassembly for recycling is to separate different materials to the greatest extent with least effort. DFD (Design for Disassembly) is a design philosophy for improving product designs for simpler or less costly disassembly operations. This paper proposes a new DFD methodology that can estimate the standard disassembly time and evaluate the disassemblablity of parts. We select some determining and influencing factors related with disassembly process, and estimate the assembly time using motion analysis. By the levels of the determining and influencing factors, the disassemblability is evaluated, and finally, the tables that include the time and score of disassembly are suggested.

• Journal of the Korean Society for Precision Engineering
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• v.20 no.1
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• pp.159-171
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• 2003

In this paper, same parts of a domestic automobiles and foreign automobiles are disassembled fur the evaluation of disassemblability, especially door trim and bumper. Influencing factors of disassembly are determined by the classification of bottleneck process in disassembly process. On the bases of disassembly sequence and structure of parts and subassembly, disassemblability is classified into aye categories. The influencing factors, which are related with the five categories are determined. By these relations, the checklist for disassembly evaluation is draw up and score tables of checked factors are established. For the establishing the disassembly score tables, the weighting values of each five categories are calculated by the disassembly test of automobiles and then, the weighting values of each influencing factors of five categories are calculated by the method of AHP (Analytic Hierarchy Process). And the last, the weighting values are modified and recalculated from the disassembly test. Using these weighting values, the score of influencing factors are determined and then, the score tables are established based on the score of influencing factors.

• Clean Technology
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• v.13 no.2
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• pp.134-142
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• 2007

In this study, two methods to evaluate the disassemblability of the parts are proposed, which are constructed from the concepts of ease-of-disassembly and disassembly time. A method to evaluate the disassemblability of the products is consequently developed using the concept of minimum parts. The methods are applied to evaluate the disassemblability of computer cases. The results show the conclusions that the new model has less disassemblability than the old one. These methods are expected to be used for the evaluation of the possibility of remanufacturing and recycling of a part.

• Journal of the Korean Society for Aeronautical & Space Sciences
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• v.46 no.10
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• pp.867-875
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• 2018

Conventional nylon wire cutting-type holding and release mechanisms (HRMs) are limited to securely hold the solar panel under launch environment as the size of the panel increases because the nylon wire is tightened directly on the surface of the solar panel. In this study, we proposed a nylon wire cutting-type HRM for 6U CubeSat's solar panel applying elliptic-shaped bracket with a Ball & Socket interface. The proposed HRM has the advantage of higher holding capability along in-plane and out-of plane directions of solar panel and simplicity in tightening process of nylon wire. The design drivers of structural design of CubeSat's solar panel with the proposed HRM were defined by structural analysis under launch loads. In addition, The design effectiveness of the proposed HRM was verified through the functional tests according to the thickness of nylon wire and the number of wire winding under various temperature conditions.

• Journal of the Korea Institute of Information and Communication Engineering
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• v.23 no.11
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• pp.1443-1450
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• 2019

The naval combat system is gradually evolving, actively accepting technological advances. The domain components of the naval combat system must also be adapted to the gradual evolution of the naval battle system. In other words, domain components should be easy to change. However, existing domain components do not fully consider changeability. In particular, when receiving more messages than planned from the middleware, it does not consider a way to process them in a timely manner. We propose a domain component reference architecture for timely processing of increased messages. The proposed architecture separates domain components so that business logic can operate independently, and sets up multiple business logic to operate simultaneously to handle increased messages. The track management domain component is designed using the proposed reference architecture to confirm the applicability.

• Journal of the Korean Society for Precision Engineering
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• v.14 no.1
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• pp.23-32
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• 1997

In this paper, systematic approach is studied about assemblability and disassemblability of parts in order to reduce the assembly cost, and to disassemble products easily which is possible to recycle the parts. For this purpose, we selected one subassembly, and analysed assembly and disassembly process. From this result, we found the weakpoints of assembly and disassembly process, and then, the influencing parameters of assemblability and disassemblability are defined. On the basis of the analysis of these parameters we grasped the interrelation between assemblability and disassemblability. And, guidelines for assemblability and disassemblability are developed. Finally design alternatives are evaluated quantitatively in the aspects of assembly and disassembly by using the guidelines which developed in this research.

• The monthly packaging world
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• s.259
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• pp.93-101
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• 2014

유니소재화(Uni-materialization)란 제품의 설계단계부터 유해물질 사용을 줄이고, 자원순환 효율성을 높이기 위해 재질 단일화 또는 단순화 하는 것을 말한다. 유니소재(Uni-material)는 재질의 수를 줄이거나 제품의 구조개선을 통해 자원관리 및 자원순환을 촉진하는 일련의 활동을 통칭하는 것으로 유니소재화는 국제환경규제를 선도하고, 친환경적, 지속가능성, 선순환 물질흐름이 가능한 혁신적인 개념으로서, 통합성(Unity), 범용성(Universalization), 독창성(Uniqueness)의 성격을 지닌다. 포장재산업에 있어서 유니소재화 제품은 서용 후 포장재가 재활용 공정을 저해하지 않고 포장재의 재활용을 통해 고부가가치의 재생 제품을 얻을 수 있도록 하는데 있으며 포장재의 기본 기능은 유지하면서 사용하는 포장 재질의 단순화 또는 단일 포장 재질 사용, 동일 재질의 포장재로 구성될 수 있도록 설계 단계에서 유니소재화를 고려한 것을 말한다. 지난 호에 이어 국제환경규제 기업지원센터(www.compass.or.kr)의 자료제공 아래, 포장재 산업에서의 유니소재화 사례를 재질단일화, 재질 단순화, 포장요서의 분리용이성 측면에서 사례별로 살펴보도록 한다.

• The monthly packaging world
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• s.260
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• pp.106-115
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• 2014

유니소재화(Uni-materialization)란 제품의 설계단계부터 유해물질 사용을 줄이고, 자원순환 효율성을 높이기 위해 재질 단일화 또는 단순화 하는 것을 말한다. 유니소재(Uni-material)는 재질의 수를 줄이거나 제품의 구조개선을 통해 자원관리 및 자원순환을 촉진하는 일련의 활동을 통칭하는 것으로 유니소재화는 국제환경규제를 선도하고, 친환경적, 지속가능성, 선순환 물질흐름이 가능한 혁신적인 개념으로서, 통합성(Unity), 범용성(Universalization), 독창성(Uniqueness)의 성격을 지닌다. 포장재산업에 있어서 유니소재화 제품은 서용 후 포장재가 재활용 공정을 저해하지 않고 포장재의 재활용을 통해 고부가가치의 재생 제품을 얻을 수 있도록 하는데 있으며 포장재의 기본 기능은 유지하면서 사용하는 포장 재질의 단순화 또는 단일 포장 재질 사용, 동일 재질의 포장재로 구성될 수 있도록 설계 단계에서 유니소재화를 고려한 것을 말한다. 지난 호에 이어 국제환경규제 기업지원센터(www.compass.or.kr)의 자료제공 아래, 포장재 산업에서의 유니소재화 사례를 재질단일화, 재질 단순화, 포장요서의 분리용이성 측면에서 사례별로 살펴보도록 한다.