• 한국결정성장학회:학술대회논문집
• /
• 한국결정성장학회 1999년도 PROCEEDINGS OF 99 INTERNATIONAL CONFERENCE OF THE KACG AND 6TH KOREA·JAPAN EMG SYMPOSIUM (ELECTRONIC MATERIALS GROWTH SYMPOSIUM), HANYANG UNIVERSITY, SEOUL, 06월 09일 JUNE 1999
• /
• pp.27-43
• /
• 1999

• 한국결정성장학회지
• /
• 제9권4호
• /
• pp.353-359
• /
• 1999

• 한국결정성장학회지
• /
• 제24권4호
• /
• pp.140-144
• /
• 2014

Co(0.7 wt%)와 Pr(2.0, 3.5 및 5.0 wt%)이 첨가된 큐빅지르코니아($ZrO_2:Y_2O_3=50:50wt%$) 단결정을 스컬용융법으로 성장 후 $N_2$ 분위기에서 $1150^{\circ}C$로 5시간 동안 열처리 하였다. 갈색의 단결정들은 각각 어두운 갈녹색, 녹청색 또는 밝은 녹색으로 변화되었다. 열처리 전 후의 YSZ 단결정들을 직경 7.5, 두께 3 mm의 웨이퍼로 연마 하여 UV-VIS 분광광도계 및 XRD(X-ray diffraction)로 광학적 또는 구조적 특성 분석을 행하였다. $Co^{2+}$(약 589 nm: ${\Gamma}_8[^4A_2(^4F)]{\rightarrow}{\Gamma}_8+{\Gamma}_7[^4T_1(^4F)]$, 약 610 nm: ${\Gamma}_8[^4A_2(^4F)]{\rightarrow}{\Gamma}_8[^4T_1(^4F)]$, 약 661 nm: ${\Gamma}_8[^4A_2(^4F)]{\rightarrow}{\Gamma}_6[^4T_1(^4F)]$ 및 $Pr^{3+}$(약 450 nm: ${^3}H{_4}-{^3}P{_2}$, 약 473 nm: ${^3}H{_4}{\rightarrow}{^3}P{_1}$, 약 484 nm: ${^3}H{_4}{\rightarrow}{^3}P{_0}$)에 의한 흡수, 이온화에너지 및 격자상수 변화를 확인하였다.

• 한국결정성장학회지
• /
• 제30권4호
• /
• pp.131-135
• /
• 2020

단결정상을 가지는 CaZrO₃ : Eu³⁺ 형광체를 스컬용융법으로 합성하였다. 합성된 형광체의 결정구조, 형태 및 광학적 특성은 XRD, SEM, UV 형광반응 및 PL을 분석하였다. 출발 원료는 CaO : ZrO₂ : Eu₂O₃를 0.962 : 1.013 : 0.025 mol%로 하여 냉각도가니에 충진하였다. 냉각도가니는 내부 직경 120 mm, 높이 150 mm이며, 혼합된 파우더 3 kg은 3.4 MHz의 출력 주파수로 1시간 이내에 완전히 용융되어 2시간 동안 유지시킨 후 자연냉각 시켰다. XRD 측정에서는 다른 결정상은 측정되지 않았으며 페로브스카이트 구조의 정방정계로 분석되었다. 합성된 형광체는 UV 광에 의해 여기 될 수 있고 방출 스펙트럼 결과는 615 nm에서 자기 쌍극자 전이 ⁵D₀→⁷F₂로 인해 CaZrO₃ : Eu³⁺의 밝은 적색 발광이 우세하였다.

• 대한두개안면성형외과학회지
• /
• 제16권1호
• /
• pp.11-16
• /
• 2015

Background: Source material used to fill calvarial defects includes autologous bones and synthetic alternatives. While autologous bone is preferable to synthetic material, autologous reconstruction is not always feasible due to defect size, unacceptable donor-site morbidity, and other issues. Today, advanced three-dimensional (3D) printing techniques allow for fabrication of titanium implants customized to the exact need of individual patients with calvarial defects. In this report, we present three cases of calvarial reconstructions using 3D-printed porous titanium implants. Methods: From 2013 through 2014, three calvarial defects were repaired using custom-made 3D porous titanium implants. The defects were due either to traumatic subdural hematoma or to meningioma and were located in parieto-occipital, fronto-temporo-parietal, and parieto-temporal areas. The implants were prepared using individual 3D computed tomography (CT) data, Mimics software, and an electron beam melting machine. For each patient, several designs of the implant were evaluated against 3D-printed skull models. All three cases had a custom-made 3D porous titanium implant laid on the defect and rigid fixation was done with 8 mm screws. Results: The custom-made 3D implants fit each patient's skull defect precisely without any dead space. The operative site healed without any specific complications. Postoperative CTs revealed the implants to be in correct position. Conclusion: An autologous graft is not a feasible option in the reconstruction of large calvarial defects. Ideally, synthetic materials for calvarial reconstruction should be easily applicable, durable, and strong. In these aspects, a 3D titanium implant can be an optimal source material in calvarial reconstruction.

• 한국정밀공학회:학술대회논문집
• /
• 한국정밀공학회 2001년도 춘계학술대회 논문집
• /
• pp.28-31
• /
• 2001

Recently, in order to satisfy the consumer's demand the life cycle and the lead-time of a product is to be shortened. It is thus important to reduce the time and cost in manufacturing trial products. Several techniques have been developed and successfully commercialized in the market RPM(Rapid Prototyping and Manufacturing). However, most commercial systems currently use resins or waxes as the raw materials. So, the limited mechanical strength for functional testing is regarded as an obstacle towards broader application of rapid prototyping techniques. To overcome this problems, high-speed machining technology is being investigated worldwide for rapid manufacturing and even for direct rapid tooling application. In this paper, some fundamental experiments and analyses are carried out to obtain the filling time, materials, method, and process parameters for HisRP process. HisRP is a combination process using high-speed machining technology with automatic filling. In filling process, Bi58-Sn alloy is chosen because of the properties of los-melting point, low coefficient of thermal expansion and enviromental friendship. Also the use of filling wire is of advantage in term of simple and flexible mechanism. Then the rapid manufacturing product, for example a skull, is machined for aluminum material by HisRP process with an automatic set-up device of 4-faces machining.

• Nuclear Engineering and Technology
• /
• 제54권4호
• /
• pp.1206-1212
• /
• 2022

Cold-crucible induction melting (CCIM) technology has been intensively studied as an advanced vitrification process for the immobilization of highly radioactive waste. This technology uses high-frequency induction to melt a glass matrix and waste, while the outer surface of the crucible is water-cooled, resulting in the formation of a frozen glass layer (skull). In this study, for the fabrication of borosilicate glass waste form, CCIM operation test with 60 kg of glass per batch was conducted using surrogate wastes composed of Cs, Sr, and Nd as a representative of highly radioactive nuclides generated during spent nuclear fuel management. A 60 kg-scale glass waste form was successfully fabricated through melting and draining processes using a CCIM system, and its physicochemical properties were analyzed. In particular, to enhance the controllability and reliability of the draining process, an air-cooling drain control method that can control draining through air-cooling near drain holes was developed, and its validity for draining control was verified. The method can offer controllability on various draining processes, such as molten salt or molten metal draining processes, and can be applied to a process requiring high throughput draining.

• Nuclear Engineering and Technology
• /
• 제34권4호
• /
• pp.344-357
• /
• 2002

The present paper reports spontaneous steam explosions observed in fuel coolant interaction experiments using prototypic reactor materials. Pure ZrO$_2$ and a mixture of UO$_2$ and ZrO$_2$ are used. A high temperature molten material in the form of a jet is poured into a subcooled water pool located in a pressure vessel. An induction skull melting technique is used for the melting of the reactor material. In both tests using pure ZrO$_2$ and a mixture of UO$_2$ and ZrO$_2$, either a quenching or a spontaneous steam explosion was observed. The morphology of debris and pressure profile clearly indicate the differences between the qunching cases and explosion cases. The dynamic pressure. dynamic impulse, water temperature, melt temperature, and static pressure Inside the containment chamber were measured . As the spontaneous steam explosion for the reactor material is firstly observed in the present experiments, the results of present experiments could be a siginificant step forward the understanding the explosion of the reactor material.

• 한국정밀공학회지
• /
• 제19권3호
• /
• pp.88-94
• /
• 2002

Recently, the life cycle and the lead-time of a product are to be shortened in order to satisfy consumer's demand. It is thus important to reduce the time and cost in manufacturing trial products. Several technique have been developed and successfully commercialized in the market of RPM(Rapid Prototyping and Manufacturing). However, most commercial systems currently use resins or waxes as the raw materials. So, the limited mechanical strength for functional testing is regarded as an obstacle towards broader application of rapid prototyping techniques. To overcome these problems, high-speed machining technology is being investigated worldwide for rapid manufacturing and even for direct rapid tooling application. In this paper, some fundamental experiments and analyses are carried out to obtain the filling time, materials, method, and process parameters for HisRP(High-Speed RP) process. HisRP is a new RP process that is combined high-speed machining with automatic filling. In filling process, Bi58-Sn alloy is chosen as filling material because of the properties of low-melting point, low coefficient of thermal expansion and no harm to environment. Also the use of filling wire it if advantage since it needs simple and flexible mechanism. Then the rapid product, for example a skull, is manufactured for aluminum material by HisRP process with an automatic set-up device thor 4-faces machining.

• 한국결정성장학회지
• /
• 제17권1호
• /
• pp.35-40
• /
• 2007

스컬(skull)용융법에 의해 성장시킨 코발트($Co^{2+}$)가 도핑(doping)된 $25{\sim}50wt%$의 서로 다른 $Y_2O_3$ 함량을 가진 이트리아 안정화 큐빅지르코니아(YSZ) 단결정을 $N_2$ 분위기 $1000^{\circ}C$에서 5시간 동안 열처리하였다. 적갈색의 단결정들은 각각 보라색 또는 청색으로 변화되었으며, Co가 첨가(doping) 된 처리 전 후의 YSZ들은 직경 6.5, 두께 2 mm의 웨이퍼 또는 직경 10 mm의 라운드브릴리언트 컷(round brilliant cut)으로 연하 하였으며, 광학적 또는 구조적 특성은 UV-VIS 분광광도계와 XRD(X-ray diffraction)로 측정하였으며, $Co^{2+}\;(^4A_2(^4F)\to{^4P})$ 및 $Co^{3+}$에 의한 흡수, 에너지 간격(energy gap) 및 격자 매개 변수(lattice parameter)변화가 분석되었다.