• Title/Summary/Keyword: Laser-preheating

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A Study on the Preheating Effect of Multi-Heat Sources using Laser Plasma in the Thermally Assisted Machining of a High-Melting-Point Material (고융점 소재의 열 보조 가공에서 레이저 -플라즈마 다중열원의 예열 효과에 대한 연구)

  • Lee, Choon-Man;Kim, Seong-Gyu
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.18 no.10
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    • pp.93-98
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    • 2019
  • Recently, with the development of the aerospace and automotive industries, the demand for high-melting-point materials has increased. However, high-melting-point materials are difficult to cut through conventional machining methods. Thermally assisted machining (TAM) is a method for improving the machinability by preheating the materials. A laser, the most commonly used device for TAM, has high efficiency through local preheating but is not sufficient for maintaining a high preheating temperature due to rapid cooling. However, the use of multi-heat sources can supplement the disadvantage of a single heat source. The high preheating temperature can be maintained with a wide and deep heat-affected zone (HAZ) by multi-heat sources. The purpose of this study is to analyze the preheating effects of multi-heat sources using laser plasma. Thermal analysis and preheating experiments were carried out. As a result, the high preheating effect of multi-heat sources compared with a single heat source was verified.

An Analytical Study on the Preheating Effect of Workpiece with Cylindrical Shape for 3-Dimensional Laser-Assisted Milling (3 차원 레이저 보조 밀링을 위한 실린더형 시편의 예열효과에 관한 해석적 연구)

  • Woo, Wan-Sick;Lee, Choon-Man
    • Journal of the Korean Society for Precision Engineering
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    • v.32 no.2
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    • pp.173-178
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    • 2015
  • Laser-assisted machining (LAM) is an effective machining method for processing difficult-to-cut materials. Prediction and estimation of preheating effect of the LAM is difficult because of moving heat source. So it is necessary to study the preheating effect of the laser heat source irradiated on the curved surfaces of workpieces of various shape. In this paper, thermal analysis of the LAM for 3-dimentional workpiece with cylindrical shape was performed. The results of this analysis can be applied to obtain the optimal preheating method and path for LAM of 3-dimensional workpiece.

Study on the Preheating Method of NURBS Shaped Workpiece by Laser Assisted Machining (레이저보조가공에서 NURBS 곡면 형상의 예열방법에 대한 연구)

  • Kim, Eun-Jung;Lee, Choon-Man
    • Journal of the Korean Society for Precision Engineering
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    • v.33 no.2
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    • pp.101-107
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    • 2016
  • Laser-Assisted machining (LAM) is a new method for processing hard-to-cut materials. However, curved shapes are difficult to predict the preheating effect of by LAM because heat sources are changed by moving laser module. So, it is necessary to study the preheating effect of the laser heat source irradiated on a 3-dimensionally shaped workpiece, such as a NURBS shaped workpiece. In this study, thermal analysis and preheating experiment of the LAM for the NURBS shaped workpiece are performed. Also, two machining methods are proposed to avoid interference of laser module and cutting tool. The results of the analysis can be applied to various shaped workpieces by LAM.

A Study on Thermal Analysis of Dual Beam Laser Welding of Thin Metal Sheet (박판의 이중 빔 레이저 용접에서 열유동 해석에 관한 연구)

  • 김재웅
    • Journal of Welding and Joining
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    • v.15 no.4
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    • pp.99-108
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    • 1997
  • Analytical model for the temperature distribution and the cooling rate of weld in dual beam laser welding is presented for investigating the possibility of controling the cooling rate. The model is based on the solutions to the problem of heat flow due to the distributed and line heat sources for preheating and welding respectively in plates with finite thickness. The effects of beam power, beam distribution parameter, interbeam distance, and welding speed on the resulting temperature distribution and cooling rate are presented. The cooling rates of dual beam laser weld at the weld centerline under the investigated conditions are reduced to as one third of those of welds which were produced by single beam laser. And it appeared that the cooling rate of dual beam laser weld is strongly dependent on the process parameters of preheating laser beam power and welding speed.

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A Study on Laser Assisted Machining for Silicon Nitride Ceramics (I) - Preheating Characteristics and Oxidation Behaviors of Silicon Nitride Ceramics with Machining Parameters - (질화규소 세라믹의 레이저 예열선삭에 관한 연구 (I) - 공정변수에 따른 질화규소의 예열특성 및 산화거동 -)

  • Kim, Jong-Do;Lee, Su-Jin;Shu, Jeong;Lee, Jae-Hoon
    • Journal of Welding and Joining
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    • v.28 no.4
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    • pp.61-66
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    • 2010
  • Silicon nitride is widely used as an engineering ceramics because it has high strength, abrasion resistance and corrosion resistance even at high temperature. However, machining of silicon nitride is difficult due to its high hardness and brittleness. Laser assisted machining(LAM) allows effective cutting using CBN tool by locally heating the cutting part to the softening temperature of YSiAlON using the laser beam. The effect of preheating depending on process parameters were studied to find out the oxidation mechanism. If silicon nitride is sufficiently preheated, the surface is oxidized and $N_2$ gas is formed and escapes from the material, thereby making the cutting process more advantageous. During laser preheating process before machining, high temperature results in strong oxidation which makes the bloating, silicate layers and micro cracks. Using the results of these experiments, preheating characteristics and oxidation behavior were found out.

Analysis of Moving Heat Source for Laser Assisted Machining of Plate by Feed Rate Control (이송속도 조절에 의한 평판 레이저 보조가공의 이동 열원해석)

  • Kim, Kwang-Sun;Lee, Choon-Man
    • Journal of the Korean Society for Precision Engineering
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    • v.28 no.12
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    • pp.1341-1346
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    • 2011
  • Currently, many researches are carried out for laser assisted machining, which is one of the important fields in materials difficult to process. However, a prediction of heat source is difficult because of moving heat source. In this paper, a thermal analysis of laser assisted machining of plate by change of heat source size is performed, and preheating temperature by adjusting the feed rate is controlled. It was recognized that the maximum preheating temperature increases according to the decrease in heat source size, and feed rate need to adjust as high speed. The results of this analysis can be used as a reference for preheating temperature prediction in laser assisted milling.

An Analytical Study on the Preheating Effect of Flat Workpiece in Thermally Assisted Machining by Multi Heat Sources (다중열원 보조가공을 위한 평판 시편의 예열 효과에 관한 해석적 연구)

  • Moon, Sung-Ho;Lee, Choon-Man
    • Journal of the Korean Society for Precision Engineering
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    • v.33 no.8
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    • pp.629-634
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    • 2016
  • Laser-assisted machining (LAM) is one of the most effective methods of processing difficult-to-cut materials, such as titanium alloys and various ceramics. However, it is associated with problems such as the inability of the laser heat source to generate an appropriate preheating temperature. To solve the problem, thermally assisted machining with multiple heat sources is proposed. In this study, thermal analysis of multiple heat sources by laser and arc is performed according to power, heat source size, and leading heat source position. Then, the results are analyzed according to each condition. The results of this analysis can be used as a reference to predict preheating temperature in thermally assisted machining with multiple heat sources.

Experiments on Welding of Ceramics by Use of High Power Laser (고출력 레이저를 이용한 세라믹 재료의 용접 실험)

  • 변철웅
    • Journal of Welding and Joining
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    • v.12 no.2
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    • pp.39-48
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    • 1994
  • In comparison to the conventional brazing, laser welding of ceramics has advantages of direct bonding without filler material, which causes the thermal stress due to the differences of thermal expansion coefficients. In pulse-mode, laser welding of dispersion ceramic having high thermal resistance is possible at relatively low preheating temperature of $1300^{\circ}C$ In CW-mode, alumina can be welded at high preheating temperature $1500^{\circ}C$ under the condition of low feed rate of 500 mm/min, respectively. Further studies on developing mechanism of pores in the bead during laser welding of ceramics is required.

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Study on Temperature Effect of Difficulty-to-Cut Material in Laser Heat Treatment Process (레이저 열원을 이용한 난삭재 열처리 공정의 온도 효과에 관한 연구)

  • Kim, Dong Hong;Jung, Dong Won;Lee, Choon-Man
    • Journal of the Korean Society for Precision Engineering
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    • v.31 no.1
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    • pp.29-33
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    • 2014
  • Recently, Difficult-to-cut materials are used in many manufacturing industry. But the difficult-to-cut materials are difficult-to-cutting process. So difficult to cut material cutting process was used after heat treatment through preheating for easy cutting process. In this study, Inconel 625 was preheating using laser heat source in computer simulation. Laser heat source temperature applied $1290^{\circ}C$ that suitable preheating temperature for Inconel 625. And temperature effects such as temperature distribution for moving heat source studied apply to similar actual process condition. Simulation results for heat treatment effects through temperature distribution verified.

Laser-assisted Selective Infiltration of tow Melting-point Metal Powders (저융점 금속분말 재료의 레이저 예열 선택적 용침)

  • H. Sohn;Lee, J. H.;J. Suh;D. Y. Yang
    • Laser Solutions
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    • v.7 no.1
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    • pp.37-47
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    • 2004
  • Laser-assisted selective infiltration is a new method of building metal layers to make metal parts layer by layer, in which superheated microscopic metal droplets are infiltrated into a laser-preheated layer of microscopic metal powders. In this work, the selective infiltration of a low melting-point metal, Sn-37Pb wt%, was conducted to investigate the effects of such dominant parameters as superheating temperature, Nd:YAG laser power for preheating, substrate temperature, etc. The optimal conditions for successful selective infiltration of a single layer of microscopic metal powder were experimentally obtained

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