• Title/Summary/Keyword: laser surface treatment

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The Laser hardening Characteristics of the Alloy Tool Steels STD11 (금형용 합금공구강 STD11의 레이저 표면경화 특성)

  • Cho, Y.M.;Kim, J.D.
    • Journal of the Korean Society for Heat Treatment
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    • v.6 no.4
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    • pp.230-236
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    • 1993
  • The laser beam hardening has been experimentally tried to find the hardened characteristics of STD11. Experiment was performed on the optimum hardening condition with 2kW $CO_2$ laser. The microstructure of the hardened layers was observed using the microscope. The hardened zones exhibits very high Vickers microhardness of 720 Hv, however, the deoxidation was observed under the surface of hardened area. The case depth of hardened zones is about 0.6mrn and case width is 4mm. FEM-simulation on laser surface hardening of STD11 steel are described. With the proper assumption of the absorbed energy density, the calculated case depth and width in 2 kW $CO_2$ laser hardening were in good agreement with the experimental result. It was found that there is optimum absorbed energy density of STD11.

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Characteristics Induction and Laser Surface hardening of SM45C Steel (SM45C강의 레이저표면경화와 고주파표면경화특성)

  • Na Gee-Dae;Shin Ho-Jun;Shin Byung-Heon;Yoo Young-Tae
    • Journal of the Korean Society for Precision Engineering
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    • v.23 no.7 s.184
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    • pp.39-50
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    • 2006
  • Laser heat treatment technologies have been used to improve characteristics of wear and to enhance the fatigue resistance for automotive parts. The bjective of this research work is to investigate the influence of the process parameters, such as power of laser and defocused spot position, on the characteristics of laser heat treatment for the case of SM45C medium carbon steel. CW Nd:YAG laser is selected as the heat source. The optical lens with the elliptical profile is designed to obtain a wide heat treatment area with a uniform hardness. From the results of the experiments, it has been shown that the maximum hardness is approximatly 780 Hv when the power and the travel of laser are 1,095 W and 0.6 m/min, respectively. In addition, the hardening width using the elliptical lens was three time larger than that using the defocusing of laser beam.

A Study of Optical properties of Al6061 By plasma electrolytic oxidation surface treatment (플라즈마 전해 산화 표면처리 된 Al6061 소재의 광학적 특성연구)

  • Yu, Jae-In;Yun, J-S;Yun, Jae-Gon;Choi, Soon-Don;Yu, Jae-Yong;Jang, Ho-Kyeoung;Kim, Ki-Hong
    • Laser Solutions
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    • v.17 no.2
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    • pp.1-4
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    • 2014
  • With the PEO(Plasma electrolytic oxidation) surface treatment, the oxide film of aluminum alloy is growing in a short time. The reflectance measurement to find the oxygen atoms in the oxide could be investigated. In order to form a thicker oxide film, the PEO surface treatment should be uniformly controlled in processing time.

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The Surface Hardening Characteristics of Hot work Tool Steel by CW Nd:YAG Laser (CW Nd:YAG 레이저에 의한 열간금형 공구강의 표면경화특성)

  • Shin H.J.;Yoo Y.T.;Ahn D.G.;Shin B.H.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2006.05a
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    • pp.219-220
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    • 2006
  • Laser surface hardening technologies have been used to improve characteristics of wear and to enhance the fatigue resistance for mold parts. The objective of this research work is to investigate the influence of the process parameters, such as power of laser and defocused spot position, on the characteristics of laser surface hardening for the case of SKD61 steel. CW Nd:YAG laser is selected as the heat source. The optical lens with the elliptical profile is designed to obtain a wide surface hardening area with a uniform hardness. From the results of the experiments, it has been shown that the maximum hardness is approximatly 740 Hv when the power, focal position and the travel of laser are 1,095 W, +1mm and 0.3 m/min, respectively. In addition, the hardening width using the elliptical lens was three time larger than that using the defocusing of laser beam.

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A Study on the Diode Laser Surface Hardening Treatment of Cast Iron for Die Material(III) - Characteristics of Microstructures in Hardened Zone - (금형재료용 주철의 다이오드 레이저 표면경화처리에 관한 연구(III) - 경화부의 미세조직 특성 -)

  • Kim, Jong-Do;Song, Moo-Keun;Hwang, Hyun-Tae
    • Journal of Advanced Marine Engineering and Technology
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    • v.36 no.1
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    • pp.78-84
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    • 2012
  • Mold may experience deterioration of molding quality as the abrasion of mold occurring due to friction between mold and molded product works as allowance in the course of press process. Therefore, to improve the wear-resistance of mold, methods like nitriding, carburizing, flame and induction surface hardening treatment etc have been applied. However, as such methods are accompanied by problems like shape limitation or product deformation etc, laser surface treatment technology is under review as surface treatment method that can solve such problems. Therefore, in this study, mold material cast iron was surface-treated by using high power diode laser. In previous report 1 and report 2, the heat treatment characteristics were compared by the differences of die materials and shapes, then this paper observed microstructure by using optical microscope and scanning electronic microscope to analyze the structural difference of hardened zone, interface area and base metal after heat treatment. And the structural condition was grasped through EDS. As a result of microstructure, hardened zone showed formation of acicular martensite.

Microstructural Characteristics of Al-Cr Coated Zr Alloy Fabricated by Laser Surface Melting Process (레이저 표면 용융공정으로 Al-Cr 코팅한 Zr합금의 미세조직 특성)

  • Kim, Jeong-Min;Lee, Jae-Cheol;Kim, Il-Hyun;Kim, Hyun-Gil
    • Korean Journal of Materials Research
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    • v.27 no.10
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    • pp.563-568
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    • 2017
  • In this study, the coating of an Al-Cr layer on the surface of a Zircaloy-4 alloy was carried out through plasma pretreatment coating and a laser surface melting process. Two different conditions for laser treatment, severe or minimal surface melting of the Zr alloy substrate, were applied to form the final coating. When there was significant surface melting of the Zr alloy, the solidification microstructure of the newly formed coating layer was mainly composed of needle-shaped $Al_3Zr$, Al(Cr) and $Al_7Cr$ phases. On the other hand, the solidification microstructure of the coating layer was mainly composed of Al(Cr) and $Al_7Cr$ phases when there was minimal surface melting of Zr base in the laser process. However, when the coating was maintained at $1100^{\circ}C$ for 2 hours, significant inter-diffusion occurred between the phases in the coating. As a result, the upper part of the coating layer was observed to mainly consist of $Al_3Zr$ and $Al_8Cr_5$ phases, regardless of the laser treatment conditions.

In Vivo and Ex Vivo Skin Reactions after Multiple Pulses of 1,064-nm, Microlens Array-type, Picosecond Laser Treatment

  • Lyu, Herin;Park, Jinyoung;Lee, Hee Chul;Lee, Sang Ju;Kim, Young Koo;Cho, Sung Bin
    • Medical Lasers
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    • v.9 no.2
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    • pp.142-149
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    • 2020
  • Background and Objectives A picosecond-domain laser treatment using a microlens array (MLA) or a diffractive optical element elicits therapeutic micro-injury zones in the skin. This study examined the patterns of tissue reactions after delivering multiple pulses of 1,064-nm, MLA-type, picosecond neodymium:yttrium-aluminum-garnet laser treatment. Materials and Methods Multiple pulses of picosecond laser treatment were delivered to ex vivo human or brown micropig skin and analyzed histopathologically. A high-speed cinematographic study was performed to visualize the multiple pulses of picosecond laser energy-induced skin reactions in in vivo human skin. Results In the ex vivo human skin, a picosecond laser treatment at a fluence of 0.3 J/cm2 over 100 non-stacking passes generated multiple lesions of thermally-initiated laser-induced optical breakdown (TI-LIOB) in the epidermis and dermis. In the ex vivo micropig skin, stacking pulses of 20, 40, 60, 80, and 100 at a fluence of 0.3 J/cm2 generated distinct round to oval zones of tissue coagulation in the mid to lower dermis. High-speed cinematography captured various patterns of twinkling, micro-spot reactions on the skin surface over 100 stacked pulses of a picosecond laser treatment. Conclusion Multiple pulses of 1,064-nm, MLA-type, picosecond laser treatment elicit marked TI-LIOB reactions in the epidermis and areas of round to oval thermal coagulation in the mid to deep dermis.

Analysis of the Effect of Micro-groove Patterns on Osseointegration using Pulsed Laser Processing (펄스 레이저 가공에 의한 마이크로 그루브 패턴이 골 세포 유착에 미치는 영향 분석)

  • Seok-Jae Ha;Si-Myung Sung;Hye-Jin Kim
    • Design & Manufacturing
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    • v.18 no.3
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    • pp.30-36
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    • 2024
  • As the demand for biomaterials and medical devices increases due to advancements in medical technology and the rising average lifespan of the population, the importance of surface treatment technology for biometallic materials used in orthopedic implants is highlighted. Achieving stable mechanical attachment between the implant and human bone, specifically bone cell adhesion, is crucial. Without proper adhesion, issues such as inflammation and reduced load-bearing capacity can occur, leading to the need for implant reimplantation. Therefore, this paper focuses on creating a micro-groove pattern using a pulsed nanosecond laser on the surface of a titanium alloy (Ti6Al4V), a biometallic material, to promote cell adhesion. To evaluate the effectiveness of the pattern in enhancing cell adhesion, MG-63 osteoblasts were cultured on the micro-groove patterned surface, and their adhesion and morphological changes were analyzed. This study confirms the potential of laser processing as a surface treatment method for biometallic materials.

THE EFFECT OF LASER IRRADIATION ON THE SURFACE CHARACTERISTICS OF TOOTH ENAMEL (레이저 처리가 치아 법랑질의 표면구조에 미치는 영향)

  • Lee, Ju-Hyun
    • Journal of the korean academy of Pediatric Dentistry
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    • v.33 no.2
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    • pp.201-206
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    • 2006
  • A recent laboratory study has demonstrated improved caries lesion resistance with enamel that was exposed to $CO_2$ laser irradiation for very short time period. When topical fluoride treatment was performed before or after laser irradiation, reductions in dental caries. The purpose of this scanning electron microscopic(SEM) study and atomic force microscope study was to characterize surface alterations in tooth enamel after in vitro laser irradiation alone and combined topical fluoride treatment either before or after laser irradiation. The treatment effects of laser irradiation led to the formation of an irregular, mild porosities and fine fissures, also created granular materials. But when laser irradiation was followed by APF, the enamel surface had homogenous architecture. The result led to the caries resistance effects by these granular structures have been considered to represent redeposited mineral phases due to the mobilization of calcium, phosphate, and fluoride from lased enamel.

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Chair-side surface treatment method for inducing hydrophilicity in titanium dental implant (치과용 티타늄 임플란트의 골융합 증진을 위한 체어사이드 친수성 표면처리방법)

  • Lee, Jung-Hwan;Jun, Soo-Kyung;Lee, Hae-Hyoung
    • The Journal of the Korean dental association
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    • v.54 no.12
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    • pp.985-995
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    • 2016
  • Titanium (Ti) has been widely used for dental implant due to great biocompatibility and bonding ability against natural alveolar bone. A lot of titanium surface modification has been introduced in dentistry and, among them, methods to introduce micro/nano-roughened surface were considered as clinically approved strategy for accelerating osseointegration of Ti dental implant. To have synergetic effect with topography oriented favors in cell attachment, chair-side surface treatment with reproducibility of micro/nano-topography is introduced as next strategy to further enhance cellular functionalities. Extensive research has been investigated to study the potential of micro/nano-topography preserved chair-side surface treatment for Ti dental implant. This review will discuss ultraviolet, low level of laser therapy and non-thermal atmospheric pressure plasma on Ti dental implant with micro/nano-topography as next generation of surface treatment due to its abilities to induce super-hydrophilicity or biofunctionality without change of topographical cues.

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