• 세라미스트
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• 제23권1호
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• pp.27-37
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• 2020

Recently, 4D printing technology has received considerable attention in various industries and research fields including soft robotics, tissue engineering, electronics. In 4D printing process, 3D printed object transforms itself into programmed structure by the input of external energy. Thus, this process requires not only smart materials, capable of changing their properties or features in response to external stimuli such as electricity, temperature, light, etc., but also smart structures, multi-material 3D printing, simulation and so on. In this review, the concept, technical elements and potential of 4d printing are presented.

• 대한치과의사협회지
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• 제58권7호
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• pp.448-459
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• 2020

In addition to extensive research on polymer and metal three-dimensional (3D) printing, ceramic 3D printing has recently been highlighted in various fields. The biggest advantage of 3D printing has the ability to easily create any complex shape. This review introduces the 3D printing technology of ceramics according to the type of material and deals with the latest related research in the industrial field including the biomedical engineering field. Finally, the future of ceramic 3D printing technology available in dentistry will be discussed.

• 센서학회지
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• 제31권5호
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• pp.279-285
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• 2022

Recently, 3D printing technology has gained increased attention in the manufacturing industry because it allows the manufacturing of complex but sophisticated structures as well as moderate production speed. Owing to advantages of 3D printers, such as flexible design, customization, rapid prototyping, and ease of access, can also be advantageous to sensor developments, 3D printing demands have increased in various active device fields, including sensor manufacturing. In particular, 3D printing technology is of significant interest in tactile sensor development where piezoelectric materials are typically embedded to acquire voltage signals from external stimuli. In regard with piezoelectricity, researchers have worked with various piezoelectric materials to achieve high piezoelectric response, but the structural approach is limited because ceramics have been regarded as challenging materials for complex design owing to their limited manufacturing methods. If appropriate piezoelectric materials and approaches to design are used, sensors can be fabricated with the improved piezoelectric response and high sensitivity that cannot be found in common bulk materials. In this study, various 3D printing technologies, material combinations, and applications of various piezoelectric sensors using the 3D printing method are reviewed.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2019년도 춘계 학술논문 발표대회
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• pp.116-117
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• 2019

3D printing technology can be applied to various industries, and is trapped by major technologies that change existing manufacturing processes. 3D printing materials must satisfy designability, economy and productivity, and building materials are required to have strength and economy secured technology. 3D printing technology of construction field can be divided into structural materials and internal and external materials, and is mainly done by extruding and adapting. Particularly when it is applied as an exterior materials, it is mainly applied to an unstructured exterior materials and high accuracy is required. The exterior materials can be used as a cement composite materials, it is suitable also for a lamination type, and the role of a cement base composite material is important. In this research, we developed a cementitious base binder applicable as a 3D printing exterior materials, confirmed high temperature strength characteristics for application as an exterior materials of buildings and confirmed its possibility.

• 한국압력기기공학회 논문집
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• 제16권1호
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• pp.117-124
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• 2020

3D printing is a technology that has significantly grown in recent years, particularly in the aerospace, defense, and medical sectors where it offers significant potential cost savings and reduction of the supply chain by allowing parts to be manufactured on-site rather than at a distance supplier. In nuclear industry, 3D printing technology should be applied according to the manufacturing trend change. For the application of 3D printing technology to the nuclear power plant, several problems, including the absence of code & standards of materials, processes and testing & inspection methods etc, should be solved. Preemptively, the improvement of reliability of 3D printing technology, including mechanical properties, structural performance, service performance and aging degradation of 3D printed parts should be supported. These results can be achieved by collaboration of many organizations such as institute, 3D printer manufacturer, metal powder supplier, nuclear part manufacturer, standard developing organization, and nuclear utility.

• 한국산업융합학회 논문집
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• 제23권2_1호
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• pp.107-113
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• 2020

Additive manufacturing(AM) can create complex shapes directly in 3D CAD models with internal geometry compared to conventional subtraction manufacturing. AM technology has the advantage of adopting various materials as well as the reduction of material. However, the high cost of AM is still a significant barrier preventing the wider adoption of AM in industries. This paper analyzes the technical application cases for solving these entry barriers and proposes a bi-metal 3D printing technology as an anticipated application to overcome the difficulty. The paper investigates the complications for current 3D metal printing technology to conduct bi-metal 3D printing and addresses ongoing solution research based on laser technology.

• 패션비즈니스
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• 제22권2호
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• pp.1-13
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• 2018

3D printing technology, which is expected to play a leading role within the Fourth Industrial Revolution, is becoming distinguished not only in the space, automotive, medical and engineering industries, but also in the area of design. The fashion and textile structures created by 3D printing technology were classified into three types - basic structure, unified structure, and a new physical structure. When traditional weaving, knitting, and stitching was reinterpreted through 3D printing, there were apparent limitations in reproducing the characteristics of fabric structures due to differences in the materials and structures of traditional textiles. New physical structures are being developed to break away from merely reproducing traditional textile structures, and to bring out the characteristics of 3D printing technology. As examples of new physical structures, there are the kinematics structure which utilizes the hinge method, mesostructure cellular material, and the N12 disk structure. Such techniques potentially open a new paradigm of fashion and textile structures. Some innovative aspects of 3D printing technology may result in changes in the methods of collaboration, manufacturing, and distribution. Designers are receiving help from specialists of various backgrounds to merge 3D printing technology to create original works. Also, 3D printing not only makes personalized custom designs available, but shortens the distribution channels, foretelling a change within the fashion and textile industry.

• 기술혁신학회지
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• 제22권1호
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• pp.119-157
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• 2019

3D 프린팅 산업의 종사자들이 3D 프린터의 도입을 결정하는 의사 결정에 어떤 인자들이 영향을 주고, 인자들의 역할을 파악하는 것이 중요하다. 이를 통해 국내 기업 등에서 활용되는 3D 프린터의 활용 증대 및 관련 산업 투자 증가로, 국내 3D 프린팅 산업의 발전에 기여할 수 있는 방안을 찾고자 한다. 3D 프린터는 기술의 발전, 대중의 관심, 투자의 활성화에 따라 급속한 발전을 이룩하고 있다. 외국은 장비, 소재, S/W, 산업 활용 등에서 괄목할 발전을 거두고 있으나, 국내에서는 예상보다 저조하다. 3D 프린터 산업의 활성화 및 저변 확대를 위해 원활한 3D 프린터의 도입이 필요하나, 실제 도입 및 현장적용에는 상당히 미흡한 실정이다. 문헌조사를 통해 경제성, 기술성, 환경성을 대표하는 독립변수들을 선정하였고, 3D 프린팅 산업에 대한 사회환경융합형 통합기술수용모델을 제안하여, 독립변수들이 3D 기술 수용의도에 어떤 영향을 미쳤는지를 독립변수 상관분석법, 무상관 회귀분석법 등을 통해 조사하였다. 본 연구를 통해 기업이 3D 프린팅 기술 및 장비의 도입을 위해 출력단가와 같은 경제성 요인과 정부지원, 3D 컨텐츠 같은 환경성 요인들이 유기적으로 확대 발전해야 한다는 점을 확인하였다. 이는 정부의 체계적이고 실효적인 지원이 필요하고, 사용자인 기업이 직접 체감할 수 있는 경제적 지원과 관련 법령, 제도 등의 개선이 필요하다. 경제적, 기술적 시간적 투자가 진행되어야 국내의 3D 프린팅 산업이 발전되고 이를 토대로 3D 프린팅 산업을 4차산업혁명의 핵심 동력으로 삼아야 할 것이다.

• 한국산학기술학회논문지
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• 제18권11호
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• pp.53-61
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• 2017

최근 웹 기반의 3D 프린팅 관련 서비스 플랫폼들이 증가하고 있으며, 소비자들은 이러한 서비스 플랫폼을 이용하여 3D 데이터를 수집하고 제작을 의뢰하며 유통 서비스를 통해 상품을 받아 볼 수 있게 되었다. 이러한 3D 프린팅 기술의 적용이 근래에는 건설 분야로까지 확장되어 기술이 발전하고 있으나 이와 관련된 서비스 플랫폼의 가이드라인 및 운영 사례는 국내외 모두 찾아볼 수 없다. 따라서 본 연구에서는 기존 타 산업분야에서 활발하게 사용되는 10개의 웹 기반 3D 프린팅 서비스 플랫폼의 기능을 조사 분석하여 건설 분야 3D 프린팅 서비스 플랫폼 구축을 위한 가이드라인으로 활용하였다. 또한 플랫폼의 구동시나리오 작성을 통해 건설 3D 프린팅 서비스 통합 플랫폼이 갖추어야 할 설계, 시공, 유통 서비스의 모습을 제시하였다. 3D 프린팅 기술의 발전에 따라 설계, 시공, 유통 등의 전반적인 건축 시장의 패러다임이 변화할 것이며, 이러한 변화에 대비하고 향후 디지털 건축 시장의 개척을 위해서는 본 연구에서 제시한 건설 3D 프린팅 서비스 플랫폼의 역할이 클 것으로 기대한다.

• 대한방사선기술학회지:방사선기술과학
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• 제46권2호
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• pp.151-157
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• 2023

The purpose of this study was to develop an assist device that could correct and support patient position during biopsy on computed tomography (CT) using 3D printing technology. The development method was conducted in the order of 3D design, 3D output, intermediate evaluation for product, final assist device evaluation. The 3D design method was conducted in the order of prior research data survey, measurement, primary modeling, 3D printing, output evaluation, and supplementary modeling. The 3D output was the 3D printer (3DWOX 2X, Sindoh, Korea) with additive manufacturing technology and the polylactic acid (PLA) materials. At this time, the optimal strength was evaluated to infill degree of product as the 3D printing factors into 20%, 40%, 60%, and 80%. The intermediate evaluation and supplementation was measured noise in the region of interest (ROI) around the beam hardening artifact on the CT images. We used 128-channel MDCT (Discovery 75 HD, GE, USA) to scan with a slice thickness of 100 kVp, 150 mA, and 2.5 mm on the 3D printing product. We compared the surrounding noise of the final 3D printing product with the beginning of it. and then the strength of it according to the degree of infill was evaluated. As a result, the surrounding noise of the final and the early devices were measured at an average of 3.3 ± 0.5 HU and 7.1 ± 0.1 HU, respectively, which significantly reduced the noise of the final 3D printing product (p<0.001). We found that the percentage of infill according to the optimal strength was found to be 60%. Finally, development of assist devices for CT biopsy will be able to minimize artifacts and provide convenience to medical staff and patients.