• 제목/요약/키워드: Plasma transferred arc(PTA) process

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PTA 오버레이 공정을 이용한 산업설비부품의 표면경화기술 (The Hardfacing Technology by PTA Overlaying Process)

  • 길상철;김환태;김상우
    • 한국소성가공학회:학술대회논문집
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    • 한국소성가공학회 2009년도 추계학술대회 논문집
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    • pp.358-361
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    • 2009
  • The increasing interest in the surface modification technology by the plasma transferred arc overlaying process in the material processing is placing stringent demands on the manufacturing techniques and performance requirements, and the manufacture employs the high quality and efficiency plasma transferred arc overlaying technology. This paper covers recent technical trends of plasma transferred arc overlaying technology including the COMPENDEX DB analysis.

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플라스마 아크 紛體肉盛法에 의한 Al 合金의 硬化厚膜 合金化層의 形成 (Formation of Thicker hard Alloy Layer on Aluminum Alloy by PTA Overlaying with Metal Powders)

  • 박성두;이영호
    • Journal of Welding and Joining
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    • 제11권2호
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    • pp.74-85
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    • 1993
  • Effect of Si metal powders addition with the plasma transferred arc(PTA) overlaying process on characteristics of the alloyed layer in aluminum alloy(A5083) has been investigated. The overlaying conditions were 175-250A in plasma arc current, 500mm/min in travel speed, the 5-20g/min in powder feeding rate. Main results obtained are summarized as follows. 1)Sufficient size of molten pool on surface of base metal was required for forming an alloyed layer; in a fixed travel, the formation of alloyed layer with clear and beautiful surface depend upon the plasma arc current and powder feeding rate; the greater plasma arc current and the smaller powder feeding rate were, the better bead was formed. Optimum alloyed conditions by which an excellent alloyed bead obtained was 225A in plasma arc current. PTA process made it possible to form an alloyed layer with up to 67wt% Si. 2)Microstructure in the alloyed layer was in accord with prediction from the Al-Si phase diagram 3)The hardness of the alloyed layer increased in proportion to Si content. 4)As volume fraction of primary Si increased, the specific wearness of the alloyed layer was significantly improved. However, no further improvement was found when the volume fraction was greater than about 30%. 5)Utilizing the PTA process, a crack free alloyed layer with maximum hardness of about Hv 310 could be obtained.

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농업기계의 내마모 특성 개선을 위한 PTA 표면 개질법의 적용 (An Application of PTA Method for the Endurance and Wear Surface Characteristics of Agricultural Implements)

  • 김창수;최중섭
    • Journal of Biosystems Engineering
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    • 제24권6호
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    • pp.473-478
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    • 1999
  • Recently, it is necessary fir surface materials to be low cost and to keep well endurable and wear in machinery field. Since most good materials with endurance and wear are expensive, they are being studied hard to modify to surface materials with endurance and wear, which overlay with the surface membrane completely. One of them is PTA(Plasma Transferred Arc Overlaying Process) method, which gets into the spotlight. It is thought to be an optimum method, since this method of overlays properly materials with about 3∼5cm surface membrane. It is necessity for the modified materials with endurance and wear to improve within the agricultural environment. Therefore, this research was used the PTA method to endure and wear a material. This method proved to be a reliable method for overlaying the membrane on the materials of an economical agricultural machinery.

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A Study on the Surface Modification of the Super Alloy by Plasma Transferred Arc Overlay Welding Method

  • Kim, Young-Sik;Lim, Chang-Hoon;Hwang, Won-Seok;Choi, Young-Gook
    • Journal of Advanced Marine Engineering and Technology
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    • 제31권7호
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    • pp.852-856
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    • 2007
  • The Plasma Transferred Arc(PTA) overlay welding method is lately introduced as one of the most useful surface overlay method of the engine component. In this paper, the overlay welding method on the Nimonic super alloy was established by the PTA overlay welding process using the same super alloy powder. The characteristics of the Co-base and Ni-base super alloy overlay layers were investigated through the metallurgical, abrasive and cavitation erosion test. The abrasive and cavitation characteristics were investigated at room and high temperature.

PTA법에 의한 스텔라이트 12 합금 육성층의 특성에 미치는 전류의 영향 (The Effect of Current on Characteristics of Stellite 12 Alloy Overlayer by PTA Process)

  • 정병호;김무길;안용식;김민영;이성열
    • 동력기계공학회지
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    • 제5권3호
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    • pp.88-94
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    • 2001
  • Stellite 12 alloy-powders were overlaid on 410 stainless steel valve seat using plasma transferred arc(PTA) process. Variation of the microstructure, hardness, wear and corrosion of overlaid deposit with current change was investigated. The deposit showed hypoeutectic microstructure, which was consisted of primary cobalt dendrite and networked $M_7C_3$ type eutectic carbides. As current increased, the amount of eutectic carbide decreased and its dendritic secondary arm spacing increased. Hardness of the deposit was decreased with increase of current. Stress relief heat treatment at $600^{\circ}C$ for two hours resulted in slight increase of hardness in the deposit and showed uniform hardness distribution in base metal without any hardened layer in HAZ. Specific wear decreased with increase of sliding distance. The deposit of high hardness with a lot of eutectic carbide showed relatively low specific wear. Initial corrosion current density of the deposit in 0.1N sulfuric acid was lower than those of 410 stainless steel, and showed a little variation with PTA current.

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PTA법에 의한 스텔라이트 12합금 육성층의 미세조직 및 경도에 미치는 시효처리의 영향 (The effect of aging on the Microstructure and Hardness of Stellite 12 alloy overlayer by PTA process)

  • 정병호;김무길;이성열
    • Journal of Advanced Marine Engineering and Technology
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    • 제26권1호
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    • pp.68-75
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    • 2002
  • Stellite 12 alloy-powders were overlaid on 410 stainless steel valve seat by plasma transferred arc(PTA)process. Variation of microstructure and hardness of overlaid deposit with aging time at $750^{\circ}C$ was investigated. The deposit showed hypoeutectic microstructure, which was consisting of primary cobalt dendrite and networked $M_{7}C_{3}$type eutectic carbides. After aging new M_{23}C_{6}$ carbide was formed by the partial decomposition of $M_7C_3$ type eutectic carbides and finely dispersed $M_{23}C_6$ type carbides were also precipitated in the matrix. Hardness of the deposit was increased with increase of aging time at $750^{\circ}C$ and showed maximum value at 35hours. After showing maximum value, it was fallen down again at 70hours because of overaging. The increase of hardness in aging is ascribed to the formation of new stable $M_{23}C_6$ type carbide by the partial decomposition of $M_7C_3$ type eutectic carbides and also precipitation of finely dispersed $M_{23}C_6$ carbides in matrix.

Ti 및 Ti계 세라믹스에 의한 Al합금의 표면복합합금화 (Formation of Ti and Ti ceramics composite layer on aluminium alloy)

  • 임병수;문정훈;서창제
    • Journal of Welding and Joining
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    • 제13권1호
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    • pp.103-114
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    • 1995
  • Plasma Transferred arc(PTA) hard facing process has been developed to obtain an overlay weld metal having excellent wear resistance. The effect of Ti, TiSi$_{2}$ and TiC powders addition on the surface of Aluminum alloy 5083 has been investigated with PTA process. This paper describes the result of test the performance of the overlay weld metal. The result can be summarized as follows 1. Intermetallic compound is formed on surface of base metal in Ti or TiSi$_{2}$ powder but the reaction with surface of base metal is little seen in TiC powder. 2. In formation of composite layer on aluminum alloy surface by plasma transferred arc welding process, high melting ceramics like TiC powder is excellent. 3. The multipass welding process is available for formation of high density of powder. But the more number of pass, the less effect of powder, it is considered, and limits of number of pass. 4. By increasing area fraction of TiC powder on Al alloy surface, in especially TiC powder the hardness increase more than 40% area fraction and 88% shows about Hv 700.

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Effect of Cu-Additions on the Hand-Over Layer of an Aluminum Alloy - Hardening for the Top Ring Groove of Automotive Piston by the Plasma Transferred Arc Welding Process -

  • Moon, J.H.;Seo, C.J.;Hwang, S.H.
    • International Journal of Korean Welding Society
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    • 제1권1호
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    • pp.58-62
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    • 2001
  • The surface of AC8A Ah alloy was modified by adding the Cu powder using a Plasma Transferred Arc (PTA) welding process. Under the optimum fabricating conditions, the modified surface of AC8A Ah alloy was observed to possess the sound microstructure with a minimum porosity. Hardness and wear resistance properties of the as-fabricated alloy were compared with those of the 76 heat-treated one. In case of the as-fabricated alloy, the hardness of the modified layer was twice that of the matrix region. Although significant increase in the hardness of the matrix region was observed after T6 heat treatment, the hardness of the modified layer was not observed to change. The wear resistance of the modified layer was significantly increased compared to that of the matrix region. The microstructure of a weld zone and the matrix region were investigated using the optical microscope, scanning electron microscope (SEM), electron probe microanalysis (EPMA), and transmission electron microscope (TEM). The primary and eutectic silicon in the weld zone were finer and more curved than in the matrix region, while some precipitates has had been found therein. According to the TEM observation, the predominant precipitate present in the weld zone was the $\theta$'phase, which is precipitated during cooling by rapid solidification in PTA welding process. Improvement of hardness and wear properties in the weld zone in the as-fabricated condition can be explained based on the presence of $\theta$’precipitates and fine primary and eutectic silicon distribution.

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Plasma Transferred Arc 오버레이법에 의한 Al 합금 표면층의 복합기능화에 관한 연구 (A Study on the Formation of Functionally Composite Layer on Al Alloy Surface by Plasma Transferred Arc Overlaying Process)

  • 임병수;황선효;서창제
    • Journal of Welding and Joining
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    • 제17권5호
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    • pp.107-115
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    • 1999
  • The objective of this research was to study the formation of the thick hardened layer with the addition of metal powder(Cu) and ceramics powders(TiC) on the aluminum 5083 alloys by plasma transferred arc process(PTA process) and to characterize the effect of overlaying conditions on the overlaid layer formation. This was followed by investigating the microstructures of the overlaid layers and mechanical properties such as hardness and wear resistance. The overlaid layer containing copper powder was alloyed and intermetallic compound($CuAl_2$) was formed. The overlaid layers with high melting point TiC powders, however, did not react with base metal. Wear resistance of the alloyed layer was remarkably improved by the formation of $CuAl_2$, precipitate phase, which prevented wear of base aluminum alloys and at higher wear speed, accelerated sliding of the counter part. Wear resistance of the composite layer was also remarkably improved because TiC powder act as a load barring element and Fe debris fragments detached from the counter part act as a solid lubricant on the contact surface.

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PTA법에 의한 스텔라이트 12 합금 육성층의 조직과 경도에 미치는 전류와 예열온도의 영향 (The Effect of Current and Preheat Temperature on Structure and Hardness of Stellite 12 Alloy Overlayer by PTA Process)

  • 정병호;김무길;김규덕;김민영;이성열
    • 열처리공학회지
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    • 제13권4호
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    • pp.246-252
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    • 2000
  • Stellite 12 alloy-powder was overlaid on 410 stainless steel valve seat using plasma transferred arc(PTA) process. Variation of characteristic of microstructure and hardness of deposit with current(90~150 A) and preheat temperature(R.T.~$400^{\circ}C$) was investigated. Important conclusion obtained are as follows; All welding conditions used produced a sound deposit layer with no defect in single pass welding. The maximum deposit had 4.0~4.8 mm in thickness and its bead width was increased with increase of current and preheat temperature. The deposit showed hypoeutectic microstruture, which was consisting of primary cobalt dendrite and networked $M_7C_3$ type eutectic carbides. The amount of eutectic carbides was decreased and its dendritic secondary arm spacing was increased with increase of current. Hardness of the deposit was decreased with increase of current. Preheat temperature up to $400^{\circ}C$, however, showed little influence on the hardness and microstructure. The hardness was also influenced by diluted Fe content near the interface in addition to microstructure and dendritic secondary arm spacing. Hot hardness at $500^{\circ}C$ showed higher than 300 HV.

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