• 제목/요약/키워드: Canning HIP

검색결과 4건 처리시간 0.013초

진공 소결 방식을 이용한 통기성 금형 소재 개발 (Development of Porous Metal Mold Material using Vacuum Sintering Method)

  • 김동원;조규일;김현근;강자연;이원혁;황금철
    • 한국표면공학회지
    • /
    • 제41권5호
    • /
    • pp.245-253
    • /
    • 2008
  • The porous metal material is used for injection metal mold with a great deal of gas production because it makes plenty of gas exhausted through pores formed in the metal mold. A canning HIP method was conventionally used for manufacturing of porous metals, but because of difficulty of process control and high cost of production its application was limited. In this experiment, porous metal mold material was produced by an enhanced vacuum sintering method with simply controlled and economical process and porosities/mechanical properties with variation of sintering temperature and duration time during vacuum sintering were studied. As a result, quality goods were obtained at optimized conditions as follows: sintering temperature of $1230^{\circ}C$, duration time of 2 hr and showed superior properties in wear loss and thermal conductivity and the same properties in hardness, TRS (Transverse Rupture Strength), and thermal expansion coefficient in comparison with those under canning HIP.

상압소결과 열간정수압소결 질화규소의 기계적 성질 (Mechanical Properties of Sintered and HIPed Silicon Nitride)

  • 김창삼;하정수;이준근
    • 한국세라믹학회지
    • /
    • 제24권3호
    • /
    • pp.223-226
    • /
    • 1987
  • Among many densification routes for silicon nitride, HIP(hot isostatic pressing) is becomming more popular these days, mainly due to the fact that it can produce highly reliable products with superior mechanical properties. This study involves in sintering of silicon nitride followed by HIP which requires no canning. Various property changes curing sintering and HIP are observed and analyzed in terms of microstructural changes. Porosity decrease and enhanced interlocking of grains by HIP are considered to be the major causes for improved mechanical properties of silicon nitride.

  • PDF

Co 함량이 다른 분말고속도공구강의 제조 및 기계적 특성 (Fabrication and Mechanical Properties of Powder Metallurgical High Speed Steels with Various Co Contents)

  • 홍성현;배종수;김용진
    • 한국분말재료학회지
    • /
    • 제9권5호
    • /
    • pp.303-306
    • /
    • 2002
  • P/M high speed steels with various Co contents were fabricated by gas atomization and Canning/HIP process. As Co content in P/M high speed steel increased, hardness, transverse rupture strength and yield strength in compressive testing increased due to solid solution hardening of Co in matrix. Especially, PM high speed steels with Co have high deformation resistance to repeated compressive loading.

HIP(열간 등방압) 공정을 이용한 압연 롤 제조 공정의 해석 메커니즘 (Analysis Mechanism of Roll Forming Manufacturing Process using HIP (Hot Isostatic Press) Process)

  • 김웅
    • 소성∙가공
    • /
    • 제32권3호
    • /
    • pp.114-121
    • /
    • 2023
  • During rolling, rolling mill rolls endure wear when shaping metal billets into a desired form, such as bars, plates, and shapes. Such wear affects the lifespan of the rolls and product quality. Therefore, in addition to rigidity, wear performance is a key factor influencing the performance of rolling mill rolls. Conventional methods such as casting and forging have been used to manufacture rolling mill rolls. However, powder alloying methods are increasingly being adopted to enhance wear resistance. These powder manufacturing methods include atomization, canning to shape the powder, hot isostatic pressing to combine the powder alloy with conventional metals, and various wear performance tests on rolls prepared with powder alloys. In this study, numerical simulations and experimental tests were used to develop and elucidate the wear analysis mechanism of rolling mill rolls. The wear characteristics of the rolls under various rolling conditions were analyzed. In addition, experimental tests (wear and surface analysis tests) and wear theory (Archard wear model) were used to evaluate wear. These tests were performed on two different materials in various powder states to evaluate the different aspects of wear resistance. In particular, this study identifies the factors influencing the wear behavior of rolling mill rolls and proposes an analytical approach based on the actual production of products. The developed wear analysis mechanism can serve the future development of rolls with high wear resistance using new materials. Moreover, it can be applied in the mechanical and wear performance testing of new products.