• Title/Summary/Keyword: sand blast

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A Experimental Study on the Comparison of the Compression Strength Characteristics of Mortar using the Blast-Furnace Slag Sand (슬래그모래를 사용한 모르터의 압축강도특성 비교에 관한 실험적 연구)

  • 김종락;김성식;이복만;임남기;정상진
    • Proceedings of the Korea Concrete Institute Conference
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    • 1999.04a
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    • pp.40-45
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    • 1999
  • This experimental study presents the strength properties of mortar using the blast-furnace slag sand. The mix disign of this study is based on the each three classes of unit water; (250, 275, 300)kg/㎥ and four classes of W/C; (45, 50, 55, 60)% and substitution rate(0, 25, 50, 75, 100)%. It gives following result. As W/C ratio increase, the strength is decrease. In case of mortar using air-cooled blast-furnace slag sand, the 3-days and 7-days compression strength is increase as substitution rate is higher. But in case of the mortar using the quenched blast-furnace slag sand, the compression strength is decrease as substitution rate is higher.

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An Experimental Study on the Flow Characteristics of Mortar using the Blast-Furnace Slag Sand (서냉슬래그 모르터의 FLOW특성에 관한 연구)

  • 임남기;이종균;김성식;김종락;정상진
    • Proceedings of the Korea Concrete Institute Conference
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    • 1998.10c
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    • pp.54-59
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    • 1998
  • This experimental Study presents the flow properties of mortar Using the Blast-furnace Slag Sand. It gives following result. The substitution rate is inversely proportional to flow. But W/C ratio is directly proportional to flow. Consequently Flow characteristics of the Blast-furnace mortar is simillar to the river sand mortar.

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Optimization of Glass Wafer Dicing Process using Sand Blast (Sand Blast를 이용한 Glass Wafer 절단 가공 최적화)

  • Seo, Won;Koo, Young-Mo;Ko, Jae-Woong;Kim, Gu-Sung
    • Journal of the Korean Ceramic Society
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    • v.46 no.1
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    • pp.30-34
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    • 2009
  • A Sand blasting technology has been used to address via and trench processing of glass wafer of optic semiconductor packaging. Manufactured sand blast that is controlled by blast nozzle and servomotor so that 8" wafer processing may be available. 10mm sq test device manufactured by Dry Film Resist (DFR) pattern process on 8" glass wafer of $500{\mu}m's$ thickness. Based on particle pressure and the wafer transfer speed, etch rate, mask erosion, and vertical trench slope have been analyzed. Perfect 500 um tooling has been performed at 0.3 MPa pressure and 100 rpm wafer speed. It is particle pressure that influence in processing depth and the transfer speed did not influence.

An Experimental Study on the Quality of Mortar Strength using the Quenched Blast-Furnace Slag (수재사 모르터의 강도특성에 관한 연구)

  • 임남기;이영도;양범석;김영회;최문식;정상진
    • Proceedings of the Korea Concrete Institute Conference
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    • 1997.10a
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    • pp.207-214
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    • 1997
  • Strength experimental on mortar which use Quenched Blast-Furnace Slag as aggregate was carried our for a fundamental study of application possibility of Quenched Blast-Furnace Slag as aggregate. It gives the following results. The strength of mortar use Quenched Blast-Furnace Slag is decrease as substitution rate is higher. As W/C rate increase, the strength decrease, but the strength decrease of fine aggregate rate 1:3 is lower than 1:2. The relation with fine aggregate is that the amount of fine aggregate is inversely proportional to strength. Th relation with age is proportional to strength and strength rate of going is lower than general mortar in 28 age the change of strength proportionately with W/C rate is that as W/C rate increases, th strength is drop ; it shows that it has same tendency as general mortar sand or crushed sand, but while W/C rate increase the strength is as high as general mortar. The reason can be assumed that water content per unit needed to Quenched Blast-Furance Slag is more than in case of sand. In addition, the relation with substitution rate is that the strength is the strongest at substitution rate 25% and 50% ; that is , sometimes it is higher than mortar which use sand 100%. In addition, long age strength of mortar which use Quenched Blast-Furnace Slag as aggregate is about to be studied in the last.

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Quality Improvement of Concrete Depending on the Mixing of Fine Aggregates Different Compositions and Grain Sizes (성분 및 입도분포가 다른 잔골재의 혼합에 의한 콘크리트의 품질향상)

  • Kim, Young-Hee;Park, Min-Yong;Kim, Jung-Bin;Han, Min-Cheol;Han, Cheon-Goo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2012.05a
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    • pp.77-79
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    • 2012
  • This study is to assess the differences between concrete having only one of fine aggregates such as crushed fine aggregates, sea sand and blast furnace slag in it and concrete having mixture of two kinds of those fine aggregates in it in order to find out how to deal with the lack of some aggregates. The findings are as follows. In terms of slump, the concrete containing sea sand and blast furnace slag has very low slump values while the concrete having the mixture of crushed fine aggregate and the other fine aggregates showed better workability. In terms of compressive strength, the concrete containing the mixture of two kinds of aggregates showed higher compressive strength. Accordingly, it is likely that the concrete containing the mixture of crushed fine aggregate, sea sand and blast furnace slag is better than the concrete with only one kind of fine aggregates in terms of the usability.

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A Study on Mortar Strength as Slag Sand Characteristics (슬래그 모래특성에 따른 모르터의 강도에 관한 연구)

  • 박정우;백민수;김성식;임남기;정재동;정상진
    • Proceedings of the Korea Concrete Institute Conference
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    • 2000.10a
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    • pp.383-388
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    • 2000
  • In these days, there are out of natural sands in the construction field. It is required that development of substitute material for natural material. The blast-furnace slag could be a good alternative material in this situation. It can help resource recycling and the protection of environment. This study presents that the strength properties of mortar using air-cooled blast-furnace slag sand and water-cooled blast-furnace slag sand. The mixing design of this study have a few factors, three type of unit water, four types of W/C, five types of substitution rate. When air-cooled furnace slag sand used in mortar, as substitution rate is higher, 3, 7-days compression strength and flexural strength are going up. But, in case of water-cooled furnace slag sand mortar, strengths are going down.

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An Experimental Study on the Stregth characteristics of Mortar using the Blast-Furnace Slag Sand (서냉슬래그 모르터의 강도특성에 관한 연구)

  • 임남기;김종락;김성식;김영회;정상진
    • Proceedings of the Korea Concrete Institute Conference
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    • 1998.10c
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    • pp.60-65
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    • 1998
  • This experimental Study presents the strength properties of mortar Using the Blast-furnace Slag Sand. It gives following result. The 3-days and 7-days compression strength is increase as substitution rate is higher. As W/C ratio increase, the strength is decrease. The flexural strength is increase as substitution rate is higher specially. As flexural strength ratio for compression strength is each 16.7%, 21.1%, 25.4% on 3-days, 7-days, 28-days, long age flexural strength is higher than short age.

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An Experimental Study on the Properties of the High Strength Crushed Sand Concrete Using Blast-Furnace Slag (고로슬래그를 사용한 고강도 부순모래 경화콘크리트의 물성에 관한 실험적 연구)

  • Choi, Young-Wha;Kim, Jong-In
    • Journal of the Korean Society of Industry Convergence
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    • v.8 no.3
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    • pp.169-176
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    • 2005
  • The purpose of this study is to develop the high strength crushed sand concrete in conditions of water binder ratios of 25, 30, 35% and blast-furnace slag substitutions of 0, 15, 30, 45%. Additionally, in case of water binder ratio of 30%, the maximum size of coarse aggregate is two kinds of 13, 19 mm. The conclusions of this study are as follows ; 1. The compressive strength appeared lower in early age as compared with that of plain concrete according to increasing of the blast-furnace slag substitution. But, the compressive strength was respectively 5, 6, 10% larger than that of plain concrete in case of 25, 30, 35% water binder ratios, 28 days, 30% blast-furnace slag substitution and 19mm coarse aggregate. 2. According to increasing of the blast-furnace slag substitution, the modulus of elasticity and the tensile strength of concrete increased. 3. The length change by the shrinkage increased when the larger coarse aggregate was used, and decreased according to higher blast-furnace slag substitution.

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Study on the Composite Blast Wall Test (복합 재료 폭파 방화벽 실험 연구)

  • Yang, Hyun-jung;Kang, Young-Jong
    • Journal of the Korean Society for Advanced Composite Structures
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    • v.1 no.4
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    • pp.6-12
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    • 2010
  • This study investigates how to apply composite material to the blast loading protection devices, mainly used for military purpose. Traditionally, earth-filled blast walls have been used for protecting important parts of military facilities and personnels. However these types of blast walls show difficulty in fabrication and portability because of their nature of heavy weight. Composite materials are known to have relatively higher specific stiffness and strength than any other metallic and earth-filled materials such as sand and gravels. Totally 4 times of TNT blast experiments were performed on the carbon/epoxy blast walls. After the end of each test, the improvement of blast wall was implemented to the structure. The test results show that the use of composite material in the blast protecting area is the one of very effective and reliable alternatives.

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Physical and Mechanical Properties of Low Carbon Green Concrete (저탄소 그린콘크리트의 물리·역학적 특성)

  • Cho, Il Ho;Sung, Chan Yong
    • Journal of The Korean Society of Agricultural Engineers
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    • v.55 no.3
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    • pp.123-128
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    • 2013
  • This study was performed to evaluate the slump flow, air content, setting time, compressive strength, adiabatic temperature rise and diffusion coefficient of chloride used ordinary portland cement, crushed coarse aggregate, crushed sand, river sand, fly ash, limestone powder, blast furnace slag powder and superplasticizer to find optimum mix design of low carbon green concrete for structures. The performances of low carbon green concrete used fly ash, limestone powder and blast furnace slag powder were remarkably improved. This fact is expected to have economical effects in the manufacture of low carbon green concrete for structures. Accordingly, the fly ash, limestone powder and blast furnace slag powder can be used for low carbon green concrete material.