• Title/Summary/Keyword: Boron Carbide

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DC Pulsed Magnetron Sputtering 법으로 제조된 B-C 박막과 B-C/DLC 다층막의 물성에 관한 연구

  • Kim, Gang-Sam;Jo, Yong-Gi
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.311-311
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    • 2012
  • Boron carbide (B-C) 박막은 높은 경도, 열적 안전성, 화학적 안전성이 우수한 하드 코팅 소재로 사용되고 있다. 우수한 특성을 가지는 B-C 박막에 대한 연구는 B4C 비전도성 타겟을 이용하여 RF Sputtering 법으로 증착 공정변수에 대해서 박막의 물성에 관해 일부 연구자들이 진행하였으나, Pulsed dc margnetron sputtering 법으로 증착 공정변수에 대한 물성의 연구는 미진하였다. 반면에, DLC 박막은 우수한 특성을 가지는 하드 코팅 소재이나 400도 이상에서는 내열성이 떨어지는 단점을 가지고 있다. 연구에서는 B-C 박막의 내열성이 우수한 특성을 이용하여 DLC 박막의 내열성을 높이기 위한 목적으로 B-C 박막과 DLC 박막을 다층막으로 제조함으로서 DLC 박막을 구조적으로 안정화를 시키고자 하였다. 그리고 비전도성 B4C 타겟으로 Pulsed dc 마그네트론 스퍼터링법을 이용하여 증착기술을 개발하기 위해서 공정압력과 인가전력에 따른 B-C 박막을 제조하여 그 물성을 조사하였고, B-C/DLC 다층막을 제조하여 DLC 박막의 내열성을 증가시키고자 하였다. B-C 박막과 B-C/DLC 다층막의 경도와 탄성율은 나노인덴테이션과 마이크로 비커스를 이용하였으며, 박막의 성장구조와 박막의 구조를 조사하기 위해 SEM과 FTIR 및 XRD 을 이용하여 측정하였다.

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Formation of Ti-B-N-C Ceramic Composite Materials via a Gas-Solid Phase Reaction

  • Yoon, Su-Jong
    • Korean Journal of Materials Research
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    • v.16 no.1
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    • pp.50-57
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    • 2006
  • Phase mixtures of Titanium boride, nitride, and carbide powder were produced by the reduction of a mixture of titanium and boron oxides with carbon via a gas-solid phase reaction. Boron oxides produce a vapour phase or decompose to a metal sub-oxide gaseous species when reduced at elevated temperature. The mechanism of BO sub-oxide gas formation from $B_2O_3$ and its subsequent reduction to titanium diboride for the production of uniform size hexagonal platelets is explained. These gaseous phases are critical for the formation of boride, nitride and carbide ceramics. For the production of ceramic phase composite microstructures, the nitrogen partial pressure was the most critical factor. Some calculated equilibrium phase fields has been verified experimentally. The theoretical approach therefore identifies conditions for the formation of phase mixtures. The thermodynamic and kinetic factors that govern the phase constituents are also discussed.

Fracture Behavior of Silicon Nitride-silicon Carbide-boron Nitride Multi-layer Composites with Different Layer Thickness

  • Cho, Byoung-Uk;Park, Dong-Soo;Park, Hong-Chae
    • Journal of the Korean Ceramic Society
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    • v.39 no.7
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    • pp.622-627
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    • 2002
  • Multi-layer composites consisting of silicon nitride, silicon nitride-silicon carbide and boron nitride-alumina layers were prepared fly stacking the corresponding ceramic tapes. The composites demonstrated self-diagnostic capability and non-catastrophic failure behavior. The composites consisting of many thin layers exhibited high strength and stepwise increase of the electrical resistance during the flexure test. The strength of the composite with too thick silicon nitride layers was low and the electrical resistance was abruptly increased to the detection limit of the digital multi-meter during the test. An extensive crack branching was observed in the weak (BN + Al$_2$O$_3$)layer.

Combustion and Performance Efficiency of Boron Carbide Fuel in Solid Fuel Ramjet (고체 램제트 추진기관에서 보론 카바이드 연료의 연소, 성능 특성)

  • Lee, Tae-Ho
    • Journal of the Korean Society of Propulsion Engineers
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    • v.8 no.2
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    • pp.95-101
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    • 2004
  • An experimental investigation was conducted to investigate the effects of the equivalence ratio and air mass flux on the combustion efficiency in a solid fuel ramjet used fuel grains which were highly loaded with boron carbide. Combustion efficiency increased with increasing equivalence ratio (grain length), and decreasing air mass flux. Higher inlet air temperature produced higher combustion efficiencies, apparently the result of enhanced combustion of the larger boron particles those burn in a diffusion controlled regime. Short grains which considered primarily of the recirculation region produced larger particles and lower combustion efficiencies. The result of the normalized combustion efficiency increased with inlet air temperatures coincident with the result of the Brayton cycle thermal and the total efficiency relating to the heat input.

Hard Turning Machinability of V30 Cemented Carbide with PCD, cBN and PcBN Cutting Tool (초경합금재의 하드터닝에서 공구재종에 따른 절삭성)

  • Heo, Sung-Jung
    • Journal of the Korean Society for Precision Engineering
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    • v.25 no.12
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    • pp.47-54
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    • 2008
  • Hard turning process can be defined as a single-point machining process carried out on "hard" materials. The process is intended to replace or limit traditional grinding operations that are expensive, environmentally unfriendly, and inflexible. The purpose of this study is to achieve a systematic understanding of machining characteristics and the effects of machining parameters on cutting force, tool wear shape and chip formation by the outer cutting of a kind of wear resistant tungsten carbide V30. Hard turning experiments were carried out on this alloy using the PCD (Poly Crystalline Diamond), cBN (cubic Boron Nitride) and PcBN (Polycrystalline cubic Boron Nitride) cutting tools. The PcBN and the usual cBN tools were used to be compare with the PCD tool and the dry turning was carried out. The PcBN is attractive as the tool material which replaces the PCD. The tool wear width and cutting force were measured, and the worn tool and chip were observed. The difference of the tool wear mechanism among the three tool materials was investigated.