• 대한전자공학회:학술대회논문집
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• 대한전자공학회 2001년도 The 6th International Symposium of East Asian Resources Recycling Technology
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• pp.209-212
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• 2001

Aircraft industry is developed very fast so titanium scrap was generated to manufacture. Titanium scrap was wasted and used to deoxidize cast iron so we are study recycling of it. In this research were studied that metal hydride of reacted in hydrogen chamber of AMS4900, 4901, return scrap titanium alloy and sponge titanium granule. The temperature of hydrogenation was 40$0^{\circ}C$ in the case of pure sponge titanium but return scrap titanium alloy were step reaction temperature at 40$0^{\circ}C$ and 50$0^{\circ}C$, and after the hydride of titanium alloy were crushed by ball mill for 5h. Titanium hydride contains to 4wt.% of hydrogen theoretically as theory. It was determined by heating and cooling curve in reaction chamber. The result of XRD was titanium hydride peak only that it was similar to pure titanium. Titanium hydride Powder particle size was about 45${\mu}{\textrm}{m}$, and recovery ratio was 95w% compared with scrap weight for a aluminum foam agent.

• 한국분말재료학회지
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• 제12권3호
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• pp.174-178
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• 2005

This paper deals with the fabrication of titanium carbide using fine titanium hydride. The ratio of $TiH_2$ and C (Activated carbon) was 1:1 (mol) and milled in a planetary ball mill at a ball-to-powder weight ratio of 20:1. Thereafter, TGA was performed at $1400^{\circ}C$ to observe change of weight with milling time. Titanium carbide was obtained by using tempering the milled powders at $1100-1500^{\circ}C$. The microstructures of titanium carbide as well as the change of the lattice parameters and particle size have been studied by X-ray diffraction (XRD) and scanning electron microscopy (SEM).

• 공업화학
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• 제5권2호
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• pp.263-273
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• 1994

SHS법에 의해 Ti-sponge(99.67%)를 수소화반응시켜 티타늄 수소화물을 합성한 다음, 이 분말을 탈수소시켜 티타늄 금속 분말을 제조하였다. 티타늄 수소화물 합성과정에서는 티타늄에 흡장된 수소의 양에 따라 티타늄 수소화물의 입도가 변하였으며, 수소의 압력이 높을수록, 연소파 전파 후 반응시간이 길수록 입도는 감소하였다. 탈수소 반응에서는 탈수소 시간이 길수록 탈수소된 티타늄 입자들이 소결 및 부분 용융되어 입도가 커지는 것으로 나타났다.

• 한국분말재료학회지
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• 제17권5호
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• pp.385-389
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• 2010

Titanium powders have been usually produced by de-hydrogenating treatment in vacuum with titanium hydride ($TiH_2$) powders prepared by milling of hydrogenated sponge titanium, $TiH_x$. The higher stoichiometry of x in $TiH_x$, whose maximum value is 2, is achieved, crushing behavior is easier. $TiH_x$ powder can be, therefore, easy to manufactured leading to obtain higher recovery factor of it. In addition, contamination of the powder can also minimized by the decrease of milling time. In this study, the hydrogenation behavior of sponge titanium was studied to find the maximum stoichiometry. The maximum stoichiometry in hydride formation of sponge titanium could be obtained at $750^{\circ}C$ for 2 hrs leading to the formation of $TiH_{{\sim}1.99}$ and the treating temperatures lower or higher than $750^{\circ}C$ caused the poor stoichiometries by the low hydrogen diffusivity and un-stability of $TiH_x$, respectively. Such experimental behavior was compared with thermodynamically calculated one. The hydrogenated $TiH_{1.99}$ sponge was fully ball-milled under -325 Mesh and the purity of pure titanium powders obtained by de-hydrogenation was about 99.6%.

• 한국추진공학회지
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• 제20권5호
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• pp.84-89
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• 2016

THPP (Titanium Hydride Potassium Perchlorate)는 산화제로 potassium perchlorate, 금속원료로 titanium hydride, 결합제로 Viton을 사용한 점화제이다. THPP는 항공우주 유도탄, 자동화 산업 등 널리 사용되고 있다. 본 연구에서는 PMD (Pyrotechnic Mechanical Device)에 사용되는 THPP의 제조공정 및 형상/열량/압력값과 같은 특성을 분석하였다. 또한 CEA 프로그램으로 조성비를 설계하였다.

• 한국세라믹학회지
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• 제30권12호
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• pp.1096-1102
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• 1993

Titanium nitride was synthesized by reacting Ti powder with nitrogen gas using SHS method. In this process, the effects of nitrogen pressure, dilution with TiN, or additiion of titanium hydride(TiH1.924) on the conversion of Ti to TiN were investigated. In particular, much effects were given to solve the problem of the conversion drop due to partial melting and subsequent sintering of Ti parciels, by controlling combustion temperature and combustion wave velocity via mixing Ti powder with TiN or/and TiH1.924. For the diluted titanium powders with TiN, the conversion close to 100% was resulted when the nitrogen pressure was over 8atm and with diluent content of 60wt%, and the self-propagating reaction was not sustained when the diluent content was higher than 60wt%. For samples mixed to be 55wt% in Ti component in the mixture of Ti, TiH1.924, and 45% TiN, the conversion was closed to 100% when the amount of titanium hydride added was over 7wt% and the nitrogen pressure was higher than 5atm. The combustion reaction, however, was not sustained when titanium hydride added was more than 10wt%.

• 한국분말야금학회:학술대회논문집
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• 한국분말야금학회 2006년도 Extended Abstracts of 2006 POWDER METALLURGY World Congress Part2
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• pp.1273-1274
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• 2006

Chemically pure, hydride/dehydride titanium powders were cold pre-compacted then extruded at $850^{\circ}C$ and $\sim450MPa$ under argon. The extrusions were 100% dense with a narrow band of surface porosity and equiaxed microstructure of similar magnitude to the starting material. The tensile properties of the bars were better than conventionally extruded CP titanium bar product. Outcomes from this study have assisted in the identification of a number of key characteristics important to the extrusion of titanium from pre-compacted CP titanium powders, allowing the elimination of canning and hot isostatic pressing (HIPping) of billets prior to extrusion as per conventional PM processes.

• 자원리싸이클링
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• 제32권2호
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• pp.19-32
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• 2023

본 연구에서는 수소분위기 내 사염화타이타늄의 마그네슘 열환원을 이용한 수소화타이타늄 분말 합성 과정 중 온도 및 소결 조건에 따른 분말 특성 변화를 조사하였다. 수소화타이타늄 생성에 미치는 온도의 영향을 검토하기 위해 1023~1123 K의 1 atm 수소분위기에서 약 30 분간 사염화타이타늄과 마그네슘을 반응시켰다. 환원반응 후 생성된 수소화타이타늄 분말의 소결이 진행되도록 0~120 분간 환원반응 온도를 유지시켰으며, 반응 종료 후 회수된 생성물의 산소농도를 분석하였다. 실험결과, 1023 K에서는 TiH_1.924 이 생성되었으나, 1073K 및 1123 K에서는 TiH_1.924와 TiH_1.5의 혼합물이 생성되었다. 또한, 반응온도가 높을수록 생성된 수소화타이타늄 분말의 수소농도는 감소하였다. 반응온도 및 소결시간이 증가할수록 분말의 산소농도는 감소하였으며, 이는 분말의 비표면적 감소에 기인하였다. 반응온도 1073 K 및 소결시간 120 분 실험조건에서 최저 산소농도 0.246 mass%인 TiH_1.924와 TiH_1.5의 혼합물이 제조되었다.

• 한국분말야금학회:학술대회논문집
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• 한국분말야금학회 2006년도 Extended Abstracts of 2006 POWDER METALLURGY World Congress Part2
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• pp.969-970
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• 2006

In present work, manufacturing technologies of titanium hydride powder were studied for recycling of titanium tuning chip and for this, attrition ball milling was carried out under $H_2$ pressure of 0.5 MPa. Ti chips were completely transformed into $TiH_2$ within several hundred seconds. Dehydrogenation process $TiH_2$ powders is consist of two reactions: one is reaction of $TiH_2$ to $TiH_x$ and the other decomposition of $TiH_x$ to Ti and $H_2$. The former reaction shows relatively low activation energy and it is suggested that the reaction is caused by introduction of defects due to milling.

• 한국분말재료학회지
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• 제16권1호
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• pp.43-49
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• 2009

Titanium carbides are widely used for cutting tools and grinding wheels, because of their superior physical properties such as high melting temperature, high hardness, high wear resistance, good thermal conductivity and excellent thermal shock resistance. The common synthesizing method for the titanium carbide powders is carbo-thermal reduction from the mixtures of titanium oxide($TiO_2$) and carbon black. The purpose of the present research is to fabricate nano TiC powders using titanium salt and titanium hydride by the mechanochemical process(MCP). The initial elements used in this experiment are liquid $TiCl_4$(99.9%), $TiH_2$(99.9%) and active carbon(<$32{\mu}m$, 99.9%). Mg powders were added to the $TiCl_4$ solution in order to induce the reaction with Cl-. The weight ratios of the carbon and Mg powders were theoretically calculated. The TiC and $MgCl_2$ powders were milled in the planetary milling jar for 10 hours. The 40 nm TiC powders were fabricated by wet milling for 4 hours from the $TiCl_4$+C+Mg solution, and 300 nm TiC particles were obtained by using titanium hydride.