• Title/Summary/Keyword: plastic fluids

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The Study of FAA's certification policy for approving the ground use of deicing/anti-icing fluids on airplane (항공기용 결빙방지액의 지상 사용승인을 위한 FAA의 최근 인증정책 연구)

  • Kim, You gwang
    • Journal of Aerospace System Engineering
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    • v.7 no.3
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    • pp.51-57
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    • 2013
  • This study describes the Federal Aviation Administration(FAA) certification policy for approving the use of Type II, III, and IV deicing/anti-icing fluids on small category airplanes. These fluids can be characterized as non-Newtonian, pseudo-plastic fluids, also known as "thickened" fluids. Deicing fluids are used before takeoff to remove frost or ice contamination, while anti-icing fluids are used before takeoff to prevent frost or ice contamination from occurring for a period of time(referred to as "holdover time") after application. Thickened deicing/anti-icing fluids can affect airplane performance and handling characteristics and their residue may cause stiff or frozen flight controls. This study also describes an approval process that may be used by type certificate holders and applicants for a type certificate under parts 23 to support operational use of these fluids on their airplanes.

Magnetorheological fluids subjected to tension, compression, and oscillatory squeeze input

  • El Wahed, Ali K.;Balkhoyor, Loaie B.
    • Smart Structures and Systems
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    • v.16 no.5
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    • pp.961-980
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    • 2015
  • Magnetorheological (MR) fluids are capable of changing their rheological properties under the application of external fields. When MR fluids operate in the so-called squeeze mode, in which displacement levels are limited to a few millimetres but there are large forces, they have many potential applications in vibration isolation. This paper presents an experimental and a numerical investigation of the performance of an MR fluid under tensile and compressive loads and oscillatory squeeze-flow. The performance of the fluid was found to depend dramatically on the strain direction. The shape of the stress-strain hysteresis loops was affected by the strength of the applied field, particularly when the fluid was under tensile loading. In addition, the yield force of the fluid under the oscillatory squeeze-flow mode changed almost linearly with the applied electric or magnetic field. Finally, in order to shed further light on the mechanism of the MR fluid under squeeze operation, computational fluid dynamics analyses of non-Newtonian fluid behaviour using the Bingham-plastic model were carried out. The results confirmed superior fluid performance under compressive inputs.

Trend on the Recycling Technologies for Recycling of Insoluble/infusible Plastic Wastes using Supercritical Fluids by the Patent and Paper Analysis (특허와 논문으로 본 초임계유체 이용 불융/불용 폐플라스틱 자원순환기술 동향)

  • Hong, Soon-Man;Koo, Chong Min;Cho, Young-Ju;Cho, Bong-Gyoo
    • Resources Recycling
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    • v.23 no.3
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    • pp.71-77
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    • 2014
  • It is believed to have the international competitiveness of the domestic petrochemical in conjunction with the production of high value-added new product and variety of application by supercritical fluid process and the reaction of infusible/insoluble plastic wastes recycling. In this article, the patents and papers for the recycling of organic residues from the plastic wastes using supercritical fluids were collected and analyzed. The open patents of USA (US), European Union (EP), Japan (JP), and Korea (KR) and SCI journals from 1993 to 2012 were investigated. The patents and journals were collected using key-words and filtered by the definition of the technology. The patents and journals were analyzed by the years, countries, companies, and technologies and the technical trends were discussed in this paper.

Vibration control of mechanical systems using semi-active MR-damper

  • Maiti, Dipak K.;Shyju, P.P.;Vijayaraju, K.
    • Smart Structures and Systems
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    • v.2 no.1
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    • pp.61-80
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    • 2006
  • The concept of structural vibration control is to absorb vibration energy of the structure by introducing auxiliary devices. Various types of structural vibration control theories and devices have been recently developed and introduced into mechanical systems. One of such devices is damper employing controllable fluids such as ElectroRheological (ER) or MagnetoRheological (MR) fluids. MagnetoRheological (MR) materials are suspensions of fine magnetizable ferromagnetic particles in a non-magnetic medium exhibiting controllable rheological behaviour in the presence of an applied magnetic field. This paper presents the modelling of an MRfluid damper. The damper model is developed based on Newtonian shear flow and Bingham plastic shear flow models. The geometric parameters are varied to get the optimised damper characteristics. The numerical analysis is carried out to estimate the damping coefficient and damping force. The analytical results are compared with the experimental results. The results confirm that MR damper is one of the most promising new semi-active devices for structural vibration control.

Late Hematoma after Breast Augmentation (유방 증대술 후 후기 혈종 발생례)

  • Kim, Ki Kap;Minn, Kyung Won;Jang, Sung Soo;Heo, Chan Yeong
    • Archives of Plastic Surgery
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    • v.32 no.6
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    • pp.767-769
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    • 2005
  • Late capsular hematoma is one of the rare complication of augmentation mammoplasty. Although the cause has not unfolded yet, the possible damage of capsular vessels chafed against the textured prostheses is questioned. Reviewing the literatures, we present a 23-year-old female subjects to incidental swelling of the right breast a year later after augmentation mammaplasty with saline-filled textured prostheses. An MRI study confirmed intracapsular fluid collection sparing the prostheses. The exploration was followed and serosanguinous fluids was drained out of the intracapsular space, and then the existing prostheses were replaced with the smooth surface ones. In the 9 months since the last surgery the patient remained well without any further problem. Intensive massage of the breasts might be accounted to the probable cause of late hematoma in this case.

DESIGN OF PARALLEL COOLING CHANNELS IN A PLASTIC INJECTION MOLD (사출 금형의 병렬 냉각 채널 설계 방법)

  • Kim, H.S.;Jung, H.K.;Han, B.Y.;Kim, Y.M.;Park, H.K.
    • Journal of computational fluids engineering
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    • v.17 no.3
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    • pp.93-98
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    • 2012
  • The injection molding process is suitable for manufacturing complicated plastic products. As the customer request higher quality products increase, realization of the precise dimensional and shape controls is getting more important. For this purpose it is important to obtain uniform cooling procedure over the whole surface of the high temperature molded plastic. Failure to this may lead to different shrinkage speed, internal stresses and unwanted shape deformations. It is necessary to distribute coolant flow rates to the main channel and to the sub-channels properly to insure uniform cooling process when there are parallel cooling channels. In this study, three-dimensional turbulent flow simulations for representative parallel cooling channels were performed. To insure the intended flow rate to each sub-channels, various shape designs for the channel system were investigated. The results show that as the Reynolds number increases the effect of shape design is more profound. Through the proper flow distribution, uniform cooling effects would be expected.

PERFORMANCE EVALUATION OF COOLING CHANNELS IN A PLASTIC INJECTION MOLD MODEL (사출금형의 냉각채널 성능 평가)

  • Kim, H.S.;Han, B.Y.;Lee, I.C.;Kim, Y.M.;Park, H.K.
    • Journal of computational fluids engineering
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    • v.17 no.2
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    • pp.53-57
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    • 2012
  • Design of the cooling channels of a plastic injection mold affects the quality and the productivity of the injection processes. In the injection process, the melted resin with high temperature enters the mold cavity, and just after the cavity is filled the heat should be dissipated through the cooling channels simultaneously. The purpose of this study is to analyse the heat transfer phenomenon and to estimate the temperature distribution in the mold to evaluate the cooling effect of the channels. The injection mold is assumed to have cooling channels of circular cross section and each channel has the same coolant flow rate. and The cavity has a rectangular shape. The results show that as the cooling channels get closer to the cavity surface, the cooling efficiency increases as might easily be guessed. However, due to the final hot resin flow from the gate an intensive cooling is required in that region.

MicroSUCI: A Microsurgical Background That Incorporates Suction Under Continuous Irrigation

  • Theodora Papavasiliou;Stelios Chatzimichail;Ankur Khajuria;Joon-Pio Hong
    • Archives of Plastic Surgery
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    • v.50 no.1
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    • pp.96-100
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    • 2023
  • The microsurgical anastomosis is integral to the success of autologous-free tissue transfer. Successful performance of this procedure relies strongly on operator dexterity, which can be made more challenging when blood and edematous fluids obscure the field of view. Workflow is impeded by intermittent irrigation and suctioning, necessitating presence of an assistant, with risk of arterial thrombosis, from vessels being drawn into suction drains. To negate these current disadvantages and minimize the barrier of entry to microvascular operations, we designed, manufactured, and patented a novel three-dimensional printed microsurgical background device with microfluidic capabilities that allow continuous suction and irrigation as well as provide platforms that enable multiangle retraction to facilitate operator autonomy. This was validated in an ex vivo model, with the device found to be superior to the current standard. We believe that this will have major applicability to the improvement of microsurgeon

Innovations in Materials Deposition for Plastic Electronics

  • Creagh, Linda T.
    • 한국정보디스플레이학회:학술대회논문집
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    • 2005.07a
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    • pp.673-675
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    • 2005
  • Ink jet printheads are now widely used in manufacturing processes that require precise dispensing of materials. Today, Dimatix manufactures a variety of drop-on-demand ink jet printheads for the industrial printing market, but emerging opportunities present fresh challenges to our technology. In response to requirements for digitally printing on flexible substrates and dispensing novel electronic fluids, we are developing next generation jetting technology based on our three-dimensional silicon MEMS technology with a piezo-driven pumping chamber integrated into the chip structure. This presentation will address the functional and physical design features and properties of Dimatix's MEMS process, its characteristics, reliability and usability. Examples of opportunities and applications for digitally printing electronic fluids on flexible substrates with MEMS-based ink jet technology will be presented.

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Capillary Breakup of Viscoelastic Fluid and its Extensional Rheology (점탄성유체의 Capillary Breakup 가시화 및 신장유변물성 측정)

  • Jeon, Hyun Woo;Choi, Chan Hyuck;Kim, Byung Hoon;Park, Jinsoo
    • Journal of the Korean Society of Visualization
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    • v.19 no.1
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    • pp.81-87
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    • 2021
  • Extensional flow of viscoelastic fluids is widely utilized in various industrial processes such as electrospinning, 3D printing and plastic injection molding. Extensional rheological properties, such as apparent viscosity and relaxation time, play an important role in the design and evaluation of the viscoelastic fluid-involved processes. In this work, we propose a lab-built capillary breakup extensional rheometer (CaBER) based on flow image processing to investigate the capillary breakup of polyethylene oxide (PEO) solution and its extensional rheological properties. We found that the apparent extensional viscosity and extensional relaxation time of the PEO solution are independent of the strike time. The proposed CaBER is expected to be applied to characterization of the extensional rheological properties of viscoelastic fluids at low cost with high precision.