• 제목/요약/키워드: Fluidic channel

검색결과 48건 처리시간 0.023초

적층 방식 3차원 프린팅에 의한 미세유로 칩 제작 공정에서 프린팅 방향 및 적층 두께의 영향에 관한 연구 (Study on Effect of the printing direction and layer thickness for micro-fluidic chip fabrication via SLA 3D printing)

  • 진재호;권다인;오재환;강도현;김관오;윤재성;유영은
    • Design & Manufacturing
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    • 제16권3호
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    • pp.58-65
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    • 2022
  • Micro-fluidic chip has been fabricated by lithography process on silicon or glass wafer, casting using PDMS, injection molding of thermoplastics or 3D printing, etc. Among these processes, 3D printing can fabricate micro-fluidic chip directly from the design without master or template for fluidic channel fabricated previously. Due to this direct printing, 3D printing provides very fast and economical method for prototyping micro-fluidic chip comparing to conventional fabrication process such as lithography, PDMS casting or injection molding. Although 3D printing is now used more extensively due to this fast and cheap process done automatically by single printing machine, there are some issues on accuracy or surface characteristics, etc. The accuracy of the shape and size of the micro-channel is limited by the resolution of the printing and printing direction or layering direction in case of SLM type of 3D printing using UV curable resin. In this study, the printing direction and thickness of each printing layer are investigated to see the effect on the size, shape and surface of the micro-channel. A set of micro-channels with different size was designed and arrayed orthogonal. Micro-fluidic chips are 3D printed in different directions to the micro-channel, orthogonal, parallel, or skewed. The shape of the cross-section of the micro-channel and the surface of the micro-channel are photographed using optical microscopy. From a series of experiments, an optimal printing direction and process conditions are investigated for 3D printing of micro-fluidic chip.

유연하고 신속한 표면미세가공기술을 이용한 Micro-fluidic Channel 제작 (Fabrication of Micro-fluidic Channels using a Flexible and Rapid Surface Micro-machining Technique)

  • 김진산;성인하;김대은
    • 한국공작기계학회논문집
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    • 제11권4호
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    • pp.97-101
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    • 2002
  • Recently, the need for transporting and manipulating minute amount of fluids in microscale channels (so-called micro-fluidics) has been increasing, especially in biotechnology and biochemical processing. This work demonstrates that the so-called mechano-chemical process which consists of mechanical abrasive action combined with chemical process can be used to f뮤ricate micro-fluidic channels more rapidly and cost effectively than other methods. In this work, capillary filling of fluids in micro-channels was investigated by theoretical approaches and experiments. From the experimental results, it is expected that a complex micro-fluidic system can be fabricated using the micro-fabrication technique and microsystem packaging method described in this work.

Design and Fabrication of a Reconfigurable Frequency Selective Surface Using Fluidic Channels

  • Son, Dong Chan;Shin, Hokeun;Kim, Yoon Jae;Hong, Ic Pyo;Chun, Heoung Jae;Park, Yong Bae
    • Journal of Electrical Engineering and Technology
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    • 제12권6호
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    • pp.2342-2347
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    • 2017
  • In this study, we design a reconfigurable frequency selective surface (FSS) using fluidic channels to use the FSS in multi-frequencies. Effective permittivity can be changed using water as the fluid of fluidic channels in a dielectric slab, and the frequency characteristics of FSS can be controlled. We optimize the dimensions of the fluidic channel to design a reconfigurable FSS and measure its transmission characteristics.

미세유로채널의 새로운 제작공정 및 표면상태가 유동에 미치는 영향 (Novel Fabrication Process for Micro-Fluidic Channels and the Effect of the Surface States on the Fluid Flow)

  • 박미석;김진산;성인하;김대은;신보성
    • 한국정밀공학회지
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    • 제21권1호
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    • pp.87-93
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    • 2004
  • Recently, with the development of bio-technology the interests in the micro-fluidic devices for analysis in the fields of biology and medical science have been steadily increasing. Although polymer is considered as one of the best materials for micro-fluidic devices. glass or silicon molds fabricated by photo-lithographic technique have been commonly used. However, it is generally perceived that the conventional photolithographic technique has the limitation for fabricating micro-channels for micro-fluidic devices. In this work, the possibility of fabrication of micro-fluidic channels on PDMS by using the mechano-chemical process and the effect of surface states on the fluid flow were investigated. Experimental results revealed that PDMS mold fabricated by the mechano-chemical process could be used effectively to replicate micro-fluidic channels with high reproducibility and dimensional accuracy. It was also found that the fluid flow generation and flow speed were largely affected by the hydrophilicity and the surface roughness of the micro-channel surfaces.

나노구체의 자기조립 성질과 표면장력을 이용한 나노유체필터 및 나노포어 마이크로믹서 (Development of the Nanofluidic Filter and Nanopore Micromixer Using Self-Assembly of Nano-Spheres and Surface Tension)

  • 서영호;최두선
    • 대한기계학회논문집A
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    • 제31권9호
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    • pp.910-914
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    • 2007
  • We present a simple and an inexpensive method for the fabrication of a nano-fluidic filter and a nano-pore micromixer using self-assembly of nano-spheres and surface tension. Colloid-plug was formed by surface tension of liquid in a microchannel to fabricate nanofluidic filter. When colloid is evaporated, nano-spheres in a colloid are orderly stacked by a capillary force. Orderly stacked nano-spheres form 3-D nano-mesh which can be used as a mesh structure of a fluidic filter. We used silica nano-sphere whose diameter is $567{\pm}85nm$, and silicon micro-channel of $50{\mu}m$-diameter. Fabricated nano-fluidic filter in a micro-channel has median pore diameter of 158nm which was in agreement with expected diameter of the nano-pore of $128{\pm}19nm$. A nano-pore micromixer consists of $200\;{\mu}m-wide,\;100\;{\mu}m-deep$ micro-channel and self-assembled nano-spheres. In the nano-pore micromixer, two different fluids had no sooner met together than two fluids begin to mix at wide region. From the experimental study, we completely apply self-assembly of nano-spheres to nano-fluidic devices.

Stereolithography 기술을 이용한 유체소자 제작에 관한 연구 (A Study on Fabrication of Fluidic Devices using Stereolithography Technology)

  • 이영태;배용환
    • 한국정밀공학회지
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    • 제21권10호
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    • pp.188-195
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    • 2004
  • In this paper, we fabricated fluidic devices like micro-channel, pump, mixer and particular gas separator with the technology of stereolithouaphy using RP(rapid-prototyping). The fabricated fluidic devices are expected to be applied to develop Lab-on-a chip type liquid analyzer. Stereolithography technology seems effective for fabricating MEMS(Micro Electro Mechanical System) with complicated structure because it makes three dimensional fabrication possible but, exclusive devices are needed to be developed fur fabricating even more microscopic MEMS structure.

유체진동기의 형상 변화가 성능에 미치는 영향 (EFFECTS OF FLUIDIC OSCILLATOR GEOMETRY ON PERFORMANCE)

  • 정한솔;김광용
    • 한국전산유체공학회지
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    • 제21권3호
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    • pp.77-88
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    • 2016
  • A parametric study on a fluidic oscillator was performed numerically in this work. Three-dimensional unsteady Reynolds-averaged Navier-Stokes equations were solved to analyze the flow in the fluidic oscillator. As turbulence closure, $k-{\varepsilon}$ model was employed. Validation of the numerical results was performed by comparing numerical results with experimental data for frequency of the oscillation. The parametric study was performed using five geometric parameters. Performance of the fluidic oscillator was evaluated in terms of velocity ratio and pressure drop. The results show that the inlet channel width and the distance between splitters are important factors in determining the performance of the fludic oscillator.

A Study on the Passive Microvalve Applicable to Drainage Device for Glaucoma

  • Sim, Tae-Seok;Kim, Yong-Kweon
    • JSTS:Journal of Semiconductor Technology and Science
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    • 제2권4호
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    • pp.253-258
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    • 2002
  • This paper reports the design, modeling, fabrication and measurement of passive microvalves, which are applicable to glaucoma implants. The proposed microvalves were designed using fluidic theory. The microvalves consisted of microchannels and chambers. The microchannels had a constant fluidic resistance generating a pressure difference. Six kinds of microvalves were designed using fluidic equations for laminar flow and fabricated to examine the influences of chamber size, channel length and the shape of channel cross section. The pressure difference between the designed microvalve and the fabricated microvalve was measured to be less than 4%.

유연하고 신속한 표면미세가공기술을 이용한 Micro-fluidic Channel 제작 (Fabrication of Micro-fluidic Channels using a Flexible and Rapid Surface Micro-machining Technique)

  • 김진산;성인하;김대은
    • 한국공작기계학회:학술대회논문집
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    • 한국공작기계학회 2002년도 춘계학술대회 논문집
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    • pp.603-607
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    • 2002
  • Recently, the need leer transporting and manipulating minute amount of fluids in microscale channels (so-called micro-fluidics) has been increasing, especially in biotechnology and biochemical processing. This work demonstrates that the mechano-chemical process which consists of mechanical abrasive action combined with chemical process can be used to fabricate micro-fluidic channels more rapidly and cost effectively than other methods. In this work, capillary filling of fluids in micro-channels was investigated by theoretical approaches and experiments. From the experimental results, it is expected that a complex micro-fluidic system can be fabricated using the micro- fabrication technique and microsystem packaging method described in this work.

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