• Title/Summary/Keyword: Salt water immersion

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Effects of Salt Addition in Sugar Based Osmotic Dehydration on Mass Transfer and Browning Reaction of Carrots

  • Chang, Moon-Jeong;Han, Myung-Ryun;Kim, Myung-Hwan
    • Preventive Nutrition and Food Science
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    • v.8 no.3
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    • pp.230-234
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    • 2003
  • Mass transfer characteristics during osmotic dehydration of carrots were studied as functions of immersion temperature and time, and sugar and salt concentrations. The effect of osmotic dehydration on the degree of browning of air-dried carrots was also evaluated. Increasing the immersion temperature and time, sugar concentration, and salt addition increased water loss, sugar gain, molality and rate of dehydration. The water loss and increases in solids, and molality were rapid in the beginning of the process and then increased slowly during remainder of the process. Increasing 1 or 2% salt concentration in the 40$^{\circ}$Brix sugar solution at 6$0^{\circ}C$ increased water loss and solid gain. Salt addition was not able to significantly affected on water loss and solid gain compare to temperature (40~8$0^{\circ}C$) and sugar concentration (20~60$^{\circ}$Brix) changes due to the low salt concentration. A minimum degree of browning of the air-dried carrots (O.D. = 0.048) could be achieved using binary solutions (40$^{\circ}$Brix sugar solution with 2% salt addition) with 24 min of immersion time compared to control (O.D. = 1.308) or blanching with 24 min of immersion time (O.D. = 0.174).

Durability of Fiber Reinforced Composites under Salt Water Environments (염수환경을 고려한 섬유강화 복합재의 내구성 평가)

  • Yoon Sung-Ho;Hwang Young-Eun
    • Proceedings of the KSR Conference
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    • 2005.05a
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    • pp.391-396
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    • 2005
  • Salt water spray test and salt water immersion test were experimentally conducted in order to investigate the durability of fiber reinforced composites under salt water environment. The specimens were made of glass fabric reinforcement and phenolic resin. Mechanical test was performed to obtain mechanical properties such as tensile properties, flexural properties, and shear properties by varying with exposure times. Also dynamic mechanical test and FTIR were conducted to investigate a change in chemical structure as well as thermal analysis properties such as storage shear modulus, loss shear moduls, and tan ${\delta}$. According to the results, salt water environment has effected on mechanical properties and thermal analysis properties and especially the durability of glass fabric/phenolic composites were severely affected on salt water immersion environment rather than salt water spray environment.

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Durability of Carbon/Epoxy Composites for Train Carbody under Salt Water Environment (염수환경에 노출된 철도차량용 탄소섬유/에폭시 복합재의 내구성 평가)

  • Hwang, Young-Eun;Yoon, Sung-Ho;Kim, Jung-Suk;Han, Seong-Ho
    • Proceedings of the KSR Conference
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    • 2007.11a
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    • pp.852-858
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    • 2007
  • The durability of carbon/epoxy composites under salt water environment was investigated through salt water spray tester. Salt water environment was obtained through salt spray and salt immersion. 5% NaCl solution was used for salt water as natural salt water. Mechanical test was performed to obtain tensile properties, flexural properties, and shear properties of carbon/epoxy composite over 12 months under salt water environment. Dynamic mechanical analyzer was used to investigate thermal analysis properties such storage modulus, loss modulus, and tan ${\delta}$. Also FT/IR test was conducted to investigate a change in chemical structure. According to the results, mechanical properties were found to be slowly degraded as a function of exposure times. Regarding to thermal analysis properties, storage modulus was insensitive to exposure times, but loss modulus was shown to be slightly decreased. Although the shape and location of peak in FT/IR were not much changed, the intensity of peak in FT/IR was affected on exposure times. We also found that salt water immersion was more severe to the durability of carbon/epoxy composite rather than salt water spray.

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An Experimental Study on the Mechanical Properties of High Modulus Carbon-Epoxy Composite in Salt Water Environment (염수 환경에 노출된 고강성 탄소/에폭시 복합재의 물성치 변화 연구)

  • Moon, Chul-Jin;Lee, Cheong-Lak;Kweon, Jin-Hwe;Choi, Jin-Ho;Jo, Maeng-Hyo;Kim, Tae-Gyeong
    • Composites Research
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    • v.21 no.6
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    • pp.1-7
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    • 2008
  • The main objective of this study is to investigate the effect of salt water on the mechanical properties of a high modulus carbon-epoxy composite. Specimens were made of a carbon-epoxy composite UPN139B of SK Chemical and tested under inplane tension and shear after 0, 1, 3, 6, 9, and 12 months immersion in 3.5% salt water. Acceleration technique such as temperature elevation was not used. The tensile strengths and modulli in fiber and matrix direction did not show any remarkable degradation until 12 months immersion. In contrast to the tensile properties, shear strength and modulus started to gradually decrease up to about 10% of values of dry specimens after 12 months immersion. It was confirmed through the test that the material UPN139B can be an effective material for the shell structures in salt water to resist against the external pressure buckling because of the high fiber directional modulus and corrosion resistance.

An Experimental Study on the Mechanical Properties of Carbon-Epoxy Composites in Salt Water Environment (염수 환경에 의한 탄소/에폭시 복합재의 물성치 변화 연구)

  • Hur, Seong-Hwa;Kim, Jeong-Hee;Kim, Hong-Seok;Kweon, Jin-Hwe;Choi, Jin-Ho;Cho, Jong-Rae;Cho, Yoon-Shik
    • Composites Research
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    • v.21 no.3
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    • pp.1-8
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    • 2008
  • The main objective of this study is to investigate the effect of salt water on the mechanical properties of a carbon-epoxy composite material. Specimens were made of a carbon-epoxy composite USN125 and tested under inplane tension and shear after 0, 0.5, 1, 2, 3, 6, 9, and 12 months immersion in 3.5% salt water. Waterproof painting and acceleration technique were not applied. The tensile strengths and moduli in fiber and matrix directions did not show any remarkable degradation until 12 months immersion. In contrast to the tensile properties, shear strength and modulus started to degrade from the early stage of the immersion time and gradually decreased to 36% and 46% of dry values, respectively, after 12 months immersion.

Effects of salt water environment on the mechanical behavior of composites (복합재료의 기계적 거동에 염수환경이 미치는 영향에 관한 연구)

  • Moon, Jin-Bum;Kim, Soo-Hyun;Kim, Chun-Gon
    • Composites Research
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    • v.23 no.1
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    • pp.44-50
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    • 2010
  • In this paper, two different experiments, namely, salt water spray and salt water immersion, were performed to reproduce the contact of composites with the seawater for three kinds of woven fabric composite material systems which would be used for the WIG(wing in ground effect)craft. After aging 140 days in the salt water environment, material properties of carbon/epoxy and glass/epoxy composite such as tensile, compressive and shear stiffness and strength, and inter-laminar shear strength (ILSS) were measured. By comparing baseline material properties with degraded ones, the effects of the salt water environment on the composite mechanical properties were evaluated. From the experiments, it was confirmed that the difference in aging conditions had very small influence on composite properties. And it was found that tensile strength of carbon/epoxy composites showed little degradation, but much more degradation was observed in glass/epoxy composites. And large degradations on matrix dominant properties were observed. The salt water could damage the fiber-matrix interface, matrix properties and the glass fiber.

Salinity Determination for Sea Water Using Immersion-Type On-Line Refractometer (침적식 온라인 굴절계를 이용한 해수의 염도 측정)

  • Kim, Byoung-Chul;Kim, Young-Han;Chan, Sang-Mok
    • Journal of Navigation and Port Research
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    • v.26 no.5
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    • pp.571-575
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    • 2002
  • An immersion-type on-line refractometer useful for the in-situ measurement of salinity and temperature of sea water is developed, and its performance is examined by applying the refractometer to known salt solution having salt concentration between 2 and 4 % similar to practical sea water salinity. Since refractive index and temperature are measured simultaneously, it is possible to compensate the effect of temperature for fast and direct measurement. The outcome of salinity measurement for the different concentrations of salt solution indicates that the device is suitable for the salinity measurement by yielding stable and reproducible reading.

Evaluation of Durability for Glass fabric/Phenolic Composites under Salt Water Environment (염수환경에 노출된 유리섬유직물/페놀 복합재의 내구성 평가)

  • Yoon, Sung-Ho
    • Composites Research
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    • v.18 no.4
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    • pp.27-34
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    • 2005
  • Salt water spray and immersion tests were experimentally conducted for over 6 months to investigate the durability of glass fabric/phenolic composites under salt water environment. Mechanical properties such as tensile properties, flexural properties, and shear properties were evaluated and thermal analysis properties such as storage shear modulus, loss shear moduls, and tan 6 were obtained through a DMA. A change in chemical structures was analyzed through a FTIR. According to the results, mechanical properties and thermal analysis properties were sensitive to salt water environment and these properties began to degrade in increasing in exposure times. However, tensile and flexural moduli started to decrease and then slightly increase as increasing in exposure times due to plasticization and crosslinking in matrix as well as physical swelling in composites. Beyond a certain exposure times, these properties began to decrease as further increasing in exposure times. Also the shape and location of peaks in FTIR curves were insensitive to exposure times, but the intensity of peaks would be. finally we found that the durability of glass fabric/phenolic composites were affected on salt water immersion environment rather than salt water spray environment.

Chloride Penetration Analysis of Fly Ash Concrete using Potentiometric Titration and XRF (플라이애시를 혼입한 콘크리트의 전위차 적정법과 XRF를 이용한 염화물 침투 분석 )

  • Eun-A Seo;Ji-Hyun Kim;Ho-Jae Lee
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.27 no.5
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    • pp.16-22
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    • 2023
  • In this study, a salt water immersion test was performed on concrete specimens simulating the concrete mix design of the nuclear power plant, and the correlation between the amount of chloride and the XRF component according to the depth of the concrete was analyzed. The amount of chloride on the surface of the nuclear power plant concrete increased slightly with increasing immersion time in salt water, but the amount of chloride in the depth of 5.5 mm or more showed a clear tendency to increase with increasing immersion time in salt water. As a result of analyzing the correlation between the amount of chloride in concrete and the XRF component, the concrete with 20% FA substitution compared with the OPC concrete showed a very high correlation between the composition ratio of Cl ions and the evaluation result of salt damage resistance by XRF component analysis. Accordingly, it was confirmed that chlorine ion analysis and salt damage resistance performance evaluation by XRF component analysis were possible through repeated data accumulation in the nuclear power plant concrete mix with 20% fly ash replacement.

Hygrothermal Effect of Salt-Water Environments on Mechanical Properties of Carbon/Epoxy Composites (탄소섬유/에폭시 복합재의 기계적 특성에 미치는 염수환경의 열습 영향)

  • Hwang, Young-Eun;Yoon, Sung-Ho
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.36 no.10
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    • pp.1261-1266
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    • 2012
  • In this study, salt-water immersion tests were experimentally performed for up to 12 months to investigate the hygrothermal effect of salt-water environments on the mechanical properties of carbon/epoxy composites. The composites were manufactured by laminating prepregs composed of carbon plain-woven fabric and epoxy resin. The specimens were subjected to temperatures of 35, 55, and $75^{\circ}C$ while being exposed to the salt-water environments. Mechanical test results showed that the tensile modulus and tensile strength decreased at a small rate, and the compressive modulus and compressive strength decreased at a relatively larger rate, as the exposure temperature and time increased. The rate of decrease in compressive strength became larger as the exposure temperature became higher. This is because a higher environmental temperature accelerates the salt-water uptake; this, in turn, reduces the compressive strength more rapidly.