• Title/Summary/Keyword: Cold Soldering

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An Experimental Study on Characteristics of Sprinkler Head Activation in Low Growth Rate Fire (저성장속도 화재에서의 스프링클러 헤드 동작특성에 관한 실험적 연구)

  • Choi, Yong-Seob;Yoon, Jong-Chil
    • Fire Science and Engineering
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    • v.30 no.5
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    • pp.26-35
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    • 2016
  • Sprinkler installations shall be operated at normal operating temperature of the atmosphere as a fire sprinkler head in any facility to control and extinguish the fire when the fire initially. Recently, however, some flush type quick response automatic sprinkler heads in slow fire place is a problem that can not be normal operation are raised. In this paper, by using the experimental model of the Apartment house of Commons and Cabinet burner size bedrooms fire conditions to form a slow growth rate and can supply more than 0.2 MPa pressure is the minimum pressure that can be applied inside the pipe in the field experiment was conducted. In the majority of experiments lush type quick response automatic sprinkler heads which is used in the country it was confirmed to be incompletely opened as the Cold Soldering occur. This phenomenon is likely to fail early fire suppression and control because they can cause the spread of fire and casualties needed to complement domestic product testing and type approval standards through additional research.

Casting and Soldering Techniques of the Bronze Buddhist Gong from the Sudasa Temple Site in Suhang-ri, Pyeongchang (평창 수다사지 청동금고 주조기법과 보수 방식)

  • Huh, Ilkwon;Ahn, Songyee;Yun, Eunyoung
    • Conservation Science in Museum
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    • v.15
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    • pp.4-25
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    • 2014
  • Chuncheon National Museum currently own a bronze Buddhist gong that was discovered in 1987 at the Sudasa Temple site of in Suhangri, Pyeongchang. Significantly, showing many casting defects and areas where was repaired, the Gong offered crucial information about the casting technique. To better understand the production technique, scientific analysis was conducted on various aspects of the gong, including its materials, moulds, chaplets, and defects. Composition analysis revealed that the gong was composed primarily of copper 71.6wt%, tin 18.2wt%, and lead 7.2wt%, along with about 1wt% of both arsenic and antimony. The lead content of the chaplets was higher than that of the gong, and the lead content was the highest in the solder, which was used to fill holes after casting. Surface analysis, based on the parting line, indicated that the gong was most likely produced with the sand casting process. Radiography and close examination of the surface disclosed various casting defects e.g., Cold Shut, Surface Folds, Misrun, and Blowholes Adjacent to Chaplets and their possible causes. The casting defects of a few holes were filled with soft solder.

Assessment of Vibration Produced by the Grinder Used in the Shipbuilding Industry and Development of Prospective Prevalence Model of Hand-arm Vibration Syndrome (선박건조업에서 사용되는 그라인더의 진동평가와 수지진동증후군 예측 모델 개발)

  • Yim, Sanghyuk;Lee, Yunkeun;Park, Hee-Sok
    • Journal of Korean Society of Occupational and Environmental Hygiene
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    • v.16 no.4
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    • pp.398-412
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    • 2006
  • The purpose of this study is to investigate the relationship between the acceleration of vibration by the powered hand tools used in the shipbuilding industry, and to develop the prospective prevalence model for the hand-arm vibration syndrome among the shipbuilding workers.The acceleration levels and frequencies of six types of grinder were measured using the ISO5349 method along with the time of exposure to the vibration from the powered hand tools. Medical examination for 114 workers were performed using the cold provocation test. Comparisons were made between the estimated prevalence of hand-arm vibration syndrome from ISO5349 and the observed values from the medical examinations. By multiple regression, we developed the prospective prevalence model of hand-arm vibration syndrome produced by the hand tools used in the shipbuilding industry. 4 hour-energy-equivalent frequency-weighted accelerations were $6.23m/s^2$ in the grinding job done after welding, and $13.39m/s^2$ in the grinding job done before painting. The mean exposure time while holding powered hand tools was 4.64 hours. Prevalence rates of Raynaud's Phenomenon were 12.04% in the grinding after soldering, and 42.9% in the grinding before painting measured using the ISO5349 method. After exposure to vibration for 10.79 years, about a half of the workers in the grinding after welding could developed Raynaud's Phenomenon. For the workers in the grinding before painting, the latency was 5.02 years. The ISO equation for dose response relationship was not significantly correlated with observed recovery rates of finger skin temperatures, blood flows and amplitudes of nerve conduction velocities. A multiple regression model for dose-response relationship was proposed from the results. Recovery rate of the skin temperatures = -0.668+ 0.337 ${\times}$ 4 hour energy equivalent frequency-weighted accelerations + 0.767 ${\times}$ duration of vibration exposure(years) The validity was proved by multiple regression analysis after correlation transformation and regression results based on model-building data and validation data.