• Title/Summary/Keyword: Ti(C, N) cermet

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Effect of Composition on Cutting Characteristics of Ti(C,N) Cermet Tool (Ti(C,N)계 서메트 공구의 조성변화가 절삭성능에 미치는 영향)

  • 박준석;김경재;김성원;권원태;강신후
    • Journal of the Korean Society for Precision Engineering
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    • v.20 no.1
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    • pp.144-150
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    • 2003
  • When WC and group IV elements are added to Ti(C,N)-Ni substrate, microstructures of the cermet is changed. The microstructure gives direct effect on the property of the material. In this study, the amount of WC and group W elements of Ti(C,N) cermet tool was investigated. The composition of WC was changed from 5 to 20wt% to determine the effect of WC on the cutting performance of cermet tool. The more WC was added, the longer the tool life of the cermet tool was. The cermet with 20wt% WC showed the best fracture toughness. The effect of group W elements; ZrC, ZrN and HfC was also investigated by adding each of them to manufacture the cermet tool with fixed l4wt% WC composition. The cermet with 1wt% ZrC and 14wt% WC showed the best cutting performance among the investigated cermet tools.

Effect of Composition on Cutting Characteristics and Reliability Analysis of Ti(C,N) Cermet Tool (Ti(C,N)계 서메트 공구의 조성변화에 따른 절삭성능 및 신뢰도 분석)

  • Park, June-Seuk;Kim, Seong-Won;Kwon, Won-Tae;Kang, Shin-Hoo
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.26 no.11
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    • pp.2336-2341
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    • 2002
  • When WC and group IV elements are added to Ti(C,N)-Ni cermet, microstructures of the cermet is changed. The change effects directly on the property of the material. In this study, the amount of WC and group IV elements of Ti(C,N) cermet tool was investigated. The composition of WC was changed from 5 to 20wt% to determine the effect of WC on the cutting performance of cermet tool. The more WC was added, the longer the tool life of the cermet tool was. The cermet with lwt% ZrC and l4wt% WC showed the best cutting performance among the investigated cermet tools. The cutting performance of cermet cutting tools suggests the possibility in interrupted cutting for reliability test experimentation was performed repeatedly with $Ti(C_{0.7},N_{0.3})- l4WC-1ZrC-20Ni$ cermet tool machining SCM440. The flank wear of cermet cutting tool at given time condition is suitable for Normal distribution and Log normal distribution by Chi squared test.

Effect of WC and group IV Elements of Ti(C,N) on the Intermittent Cutting Performance (Ti(C,N)계 서메트 공구의 WC와 IV족 원소 첨가가 단속 절삭성능에 미치는 영향)

  • 박준석;김경재;권원태;강신후
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1997.10a
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    • pp.919-922
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    • 1997
  • In this study, the amount of WC and group N elements of Ti(C, N) cermet tool was investigated. The composition of WC was changed from 5 to 20% to determine the effect of WC on the cutting performance of cermet tool. The more WC was added, the longer the tool life of the cermet tool was. The cermet with 20% WC showed the best fracture toughness. The effect of group N elements ; ZrC, ZrN and HfC was also investigated by adding each of them to manufacture the cermet tool with fixed 14% WC composition. The cermet with 1% group N ZrC and 14% WC showed the best cutting performance among the investigated cermet tools.

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Characterization of Ti(C,N) Solid Solutions in Densified Ti(C,N) and TiC-TiN-Ni Cermet (치밀화된 Ti(C,N)과 TiC-TiN-Ni 써멧에서의 Ti(C,N) 고용상의 특성평가)

  • Kim, Seong-Won;Chae, Jung-Min;Kang, Shin-Hoo;Ryu, Sung-Soo;Kim, Hyung-Tae
    • Journal of Powder Materials
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    • v.15 no.6
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    • pp.503-508
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    • 2008
  • Ti(C,N) solid solutions in hot-pressed Ti($C_{x}N_{1-x}$) (x=0.0, 0.3, 0.5, 0.7, 1.0) and 40TiC-40TiN-20Ni (in wt.%) cermet were characterized in this study. For hot-pressed Ti(C,N)s, the lattice parameters and hardness values of Ti(C,N) were determined by using XRD (X-Ray Diffraction) and nanoindentation. The properties of hot-pressed Ti(C,N) samples changed linearly with their carbon or nitrogen contents. For the TiC-TiN-Ni cermet, the hardness of the hard phase and binder phase were determined by nanoindentation in conjunction with microstructural observation. The measured hardness values were ${\sim}8.7$ GPa for the binder phase and ${\sim}28.7$ GPa for the hard phase, which was close to the hardness of hot-pressed Ti($C_{0.7}N_{0.3}$).

Effect of WC and group IV Elements of Ti(C,N) on Cutting Performance in Turning (선삭시 Ti(C,N)계 서메트 공구의 WC와 IV족 원소 첨가가 절삭성능에 미치는 영향)

  • 박준석;김경재;권원태;강신후
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2001.10a
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    • pp.3-7
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    • 2001
  • In this study, the effect of WC and group IV elements on the cutting performance in turning is investigated. The composition of WC was changed from 5 to 20% to determine the effect of WC on the cutting performance of cermet tool. The more WC was added, the longer the tool life of the cermet tool was. The cermet with 20% WC showed the best fracture toughness. The cermet tool with 20% WC showed the best cutting performance among the various WC composition. The effect of group IV elements ; ZrC, ZrN and HfC was also investigated by adding each of them to manufacture the cermet tool with fixed 14% WC composition. The cermet with 1% group IV HfC and 14% WC showed the best cutting performance among the investigated cermet tools.

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Effect of VC Addition on the Microstructure & Mechanical Properties of Ti(CN)-based Cermet (VC 첨가가 Ti(CN)계 써메트의 미세구조 및 기계적 성질에 미치는 영향)

  • 안성용;강신후
    • Journal of the Korean Ceramic Society
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    • v.35 no.12
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    • pp.1316-1322
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    • 1998
  • The amount of VC and C/N ratio in Ti(CN) was varied to investigate the effect of VC addition on the mi-crostructural change in Ti(CN)-Ni system. As the amount of VC addition increases in Ti(C0.7N0.3)-20Ni sys-tem a complete solid solution was observed in Ti(C0.7N0.3)-20Ni-25VC system. It implies that the ratio of the dissolution rates of Ti(C0.7N0.3)to that of VC is nearly 2:1 at the sintering conditions used in this study. It was found from the experiments that the system composed of the Ti(C0.7N0.3) phase exhibits a rimless structure and relatively small amount of solid solution. That is among Ti(C0.7N0.3) phase exhibits a rimless structure and relatively small amount of solid solution. This is among Ti(C1-xNx) phases the dissolution rate of Ti(C0.3N0.7) is the lowest. Also fracture toughness(KIC) of the cermet was measured by indentation method. Attentions were paid to crack propagation path to look for a dominant fracture mode and to cor-relate it with fracture toughness values. The fracture toughness was relatively high with the addition of VC content. But the addition of a large VC content reduced the overall toughness of the cermet. This result is explained with the difference in fracture mode.

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Formation of a Core/Rim Structure in Ti(C, N)-based Cermets (Ti(C, N)계 써메트의 유심구조 형성거동)

  • Kim, Suk-Hwan
    • Journal of Powder Materials
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    • v.13 no.1 s.54
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    • pp.10-17
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    • 2006
  • Model experiment was introduced to obtain the formation of a core/rim structure by only liquid phase reaction in Ti(C, N)-based cermet alloys. Infiltrated Ti(C, N)-Ni, $MO_2C-Ni$, and TaC-Ni cermets were bonded to sandwiched specimen by heat treatment $1450^{\circ}C$ for 5hr. With nitrogen addition, both (Ti, Mo) (C, N) and (Ti, Ta) (C, N) rim structure was nucleated around comer of cuboidal Ti(C, N) core. However, equilibrium shapes of(Ti, Mo) (C, N) and (Ti, Ta) (C, N) rim were different possibly due to the effect of interface energy. The core/rim and rim! binder interfaces were parallel to each other with TaC addition, while rotated to each other with $MO_2C$ addition.

Hardness of Constituent Phases in Ti(C0.7N0.3)-WC-Ni Cermets Measured by Nanoindentation (나노인덴테이션으로 측정한 Ti(C0.7N0.3)-WC-Ni 써멧 구성상의 경도)

  • Kim, Seong-Won;Kim, Dae-Min;Kang, Shin-Hoo;Kim, Hyeong-Jun;Kim, Hyung-Tae
    • Journal of the Korean Ceramic Society
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    • v.46 no.1
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    • pp.116-121
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    • 2009
  • The constituent phases in Ti($C_{0.7}N_{0.3}$)-xWC-20Ni (wt%, x=5, 15, 25) cermets were characterized using nanoindentation in conjunction with observation of microstructure. The microstructure of cermet is composed of hard phase and binder phase, which gave rise to a wide range of hardness distribution when nanoindentation was carried out on the polished surface of cermets. Because of the inhomogeneous nature of cermet microstructure, observation of indented surface was indispensable in order to separate the hardness of each constituent phase. The measured values of hardness using nanoindentation were ${\sim}14\;GPa$ for the binder phase and ${\sim}24$ to 28 GPa for the hard phase, of which nanoindentation hardness was decreased with the addition of WC into Ti($C_{0.7}N_{0.3}$)-Ni system. In addition, the nanoindentation hardness of Ni binder phase was much higher than reported Vickers hardness, which could result from confined deformation of binder phase due to the surrounding hard phase particles.