• Journal of Welding and Joining
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• 제12권2호
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• pp.119-127
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• 1994

용접 이음부는 토우부의 응력집중에 의해 피로강도가 저하된다는 것은 잘 알려져 있는 사실이다. 이 때문에 용접 이음부의 피로강도 개선을 위하여 여러 방법이 제안되어 있으나 본 연구에서는 강을 가열후 급랭하여 극저탄소강의 피로강도 개선에 미치는 시효의 영향을 조사하였다. 탄소 함유량 0.019-0.080% 범위의 8종의 탄소강을 용해 제조하여 압연한 후 피로시험편을 가공하였다. 이 시험편을 $A_1$점 이하 $700^{\circ}C$로 가열하여 급랭 시효에 의한 저탄소강의 피로강도에 미치는 탄소함유량의 영향을 조사하였다. $700^{\circ}C$로부터의 급랭 및 시효에 의하여 인장강도 및 피로강도는 노랭, 공랭재의 경우에 비하여 훨씬 높아짐을 알 수 있었다. 또한 급랭후의 시효에 의한 피로강도 향상 효과가 가장 크게 나타나는 것을 페라이트의 탄소고용한도 0.02%에 가까운 합금 조성을 갖는 경우이었다.

• 한국세라믹학회지
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• 제11권1호
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• pp.3-9
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• 1974

The role of added metal oxide in the adherence mechanism of low melting glass to several metal plates such as oxygen free high conducting copper, low carbon steel, chrominum galvanized on copper, and stainless steel was investigated. The metal oxide which added to glass were cupric oxide, ferric oxide, chromic oxide, and stainless steel oxide. The glass to that various metla oxide were added, sealed with several metal plates in the electric furnace at $650^{\circ}C$ for 5 minutes. The results as follows; 1) The interfacial reaction was promoted and strong chemical bonding with glass and metals by which the surface energy was decreased showed excellent sealing by addition of metal oxide. 2) When the interfacial reaction of glass and metals was promoted by addition of metal oxide found out that various adhernece mechanism were related to the sealing. 3) When the amount of metal oxide addition was 3-5% the excellent sealing was achieved.

• 한국표면공학회지
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• 제31권5호
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• pp.286-296
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• 1998

Galvannealing is becomming the main stream of the coating technology applied to automobile outer and inner panels due to its low cost and easy application applied to automobile outer and inner panels due to its low cost and easy application in thick Zn coating, compared to electro galvanizing. Despite of filed up data with an experience in this field, galvannealing in thick Zn coating is getting more difficult because of the absence of Fe deposition in Zn coating. As a result, it exhibits, with different steel sheet and grain size there is a proper temperature range which is good for the tarket coating thickness of galvannealing. In case of 1,200mm wide and 0.77 mm thick extra low carbon steel with 20$mu extrm{m}$ grain size, its proper temperature range for galvannealing of one side 60g/$\textrm{m}^2$ is 470-$480^{\circ}C$.

• 비파괴검사학회지
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• 제36권5호
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• pp.377-383
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• 2016

페라이트기 11Cr 저탄소강의 자기적 특성에 대한 고온 장시간 시효열화의 영향에 대해서 연구하였다. 장시간 시효시간이 증가함에 따라서 자기이력곡선으로부터 구한 보자력, 자기이력손실은 감소하였고 이들은 시효시간에 대해 2차 지수함수 관계를 나타내었다. 비커스 경도 역시 시효시간의 증가에 따라서 감소하여 기계적 물성의 연화를 나타내었다. 미세조직적 분석으로 주사전자현미경, 후방산란전자 및 X-선 회절시험을 수행하였다. 입계에서는 $Cr_{23}C_6$ 석출물의 급격한 성장과 입내의 래스 경계부에서 Laves ($Fe_2W$)상이 발달하였다. 조대한 석출물들로 인해 장시간 시효열화에 따라서 고용원소의 고갈과 래스 하부조직이 소멸되었다. 이는 자기적 물성과 기계적 물성의 연화현상과 밀접한 관련을 갖게 된다.

• 대한금속재료학회지
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• 제47권4호
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• pp.217-222
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• 2009

Cu as a tramp element has been reported to encourage transverse cracking upon straightening operation during continuous casting or mini-mill processing. Therefore, the hot workability of steels containing Cu should be investigated. The purpose of the present study was to examine the effect of Cu contents on the hot ductility of low carbon steels by using hot compression test. Hot compression test was carried out using a Gleeble. The specimens were heated to $1300^{\circ}C$ for solution treatment and then held for 300s before cooling at a rate of $1^{\circ}C/s$ to test temperatures in the range of $650{\sim}1150^{\circ}C$ ($50^{\circ}C$ intervals) with strain rate of $5{\times}10^{-3}/s$. In Cu containing steels, the hot ductility was decreased with increasing Cu content at high temperature region which is to be attributed to copper enriched phase formed at scale/steel interface, and low hot ductility with increasing Cu content at low temperature region is attributable to the strengthening of matrix by the formation of ${\varepsilon}-Cu$. The width of ductility trough region was decreased with increasing Cu content.

• 소성∙가공
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• 제18권6호
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• pp.471-475
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• 2009

The effect of prior microstructures on mechanical properties in low carbon steels were examined by comparing the behavior of cementite and mechanical properties of cryo-rolled and subsequently annealed steels. Prior microstructures consisted of ferrite + pearlite, banite or martensite. Steels, consisting of bainitic microstructure, exhibited the better combination of strength - ductility than steels with other prior microstructures, such as ferrite + pearlite and martensite.

• 한국레이저가공학회지
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• 제2권2호
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• pp.27-33
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• 1999

Electron beam was applied on the low carbon steel in order to fabricate Metal/Metal GBM(Graded Boundary Material). Ni sheet was placed on the steel substrate. The electron beam was irradiated on the surface and produced a homogeous alloyed layer. Sequential repetition of electron beam treatments for 4 times resulted in 8mm thick graded layer. To determine each layers property, optical microscopy, XRD, microhardness tester and EDS were used. The residual stress was measured by the low angle x-ray diffraction method. The graded boundary layer was stepwise profile, but Ni content incresed up to 80 wt% and Fe content decreased 20 wt% near surface. Each layers microstructure and hardness varied by different Fe/Ni composition. The compressive residual stress was induced by martensite transformation in the 1st and End layers and the shrinkage cracks were formed in graded layer by rapid cooling.

• Tribology and Lubricants
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• 제30권4호
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• pp.199-204
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• 2014

Various heat-treated and surface coating methods are used to mitigate abrasion in sliding machine parts. The most cost effective of these methods involves hard coatings such as diamond-like carbon (DLC). DLC has various advantages, including a high level of hardness, low coefficient of friction, and low wear rate. In practice, a supporting layer is generally inserted between the DLC layer and the steel substrate to improve the load carrying capacity. In this study, an indentation and sliding contact problem involving a small, hard, spherical particle and a DLC-coated steel surface is modeled and analyzed using a nonlinear finite element code, MARC, to investigate the influence of the supporting layer thickness on the coating characteristics and the related coating failure mechanisms. The results show that the amount of plastic deformation and the maximum principal stress decrease with an increase in the supporting layer thickness. However, the probability of the high tensile stress within the coating layer causing a crack is greatly increased. Therefore, in the case of DLC coating with a supporting layer, fatigue wear can be another important cause of coating layer failure, together with the generally well-known abrasive wear.

• 한국안전학회지
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• 제6권4호
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• pp.81-87
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• 1991

We propose the crack growth rate equation which will model fatigue crack growth rate behavior such that constant stress amplitude fatigue crack growth behavior can be predicted. Constant stress amplitude fatigue tests are conducted for four materials under three stress ratios of R＝0.2, R＝0.4 and R＝0.6. Materials which have different mechanical properties i.e. stainless steel, low carbon steel, medium carbon steel and aluminum alloy are used. Through constant stress amplitude fatigue test by using unloading elastic compliance method, it is confirmed that crack closure is a close relationship with fatigue crack propagation. We describe simply fatigue crack propagation behavior as a function of the effective stress intensity factor range ($\Delta$ $K_{eff}$＝U .$\Delta$K) for all three regions (threshold region, stable region). The fatigue crack growth rate equation is given by da / dN＝A($\Delta$ $K_{eff}$­$\Delta$ $K_{o}$ )$^{m}$ / ($\Delta$ $K_{eff}$­$\Delta$K) Where, A and m are material constants, and $\Delta$ $K_{o}$ is stress intensity factor range at low $\Delta$K region. $K_{cf}$ is critical fatigue stress intensity factor.actor.

• 열처리공학회지
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• 제21권6호
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• pp.281-286
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• 2008

In the 1.1 Mn steel containing boron, effects of the 0.1 V addition and processing condition were studied. In the $550^{\circ}C$ interrupted cooling where the main structure is (ferrite + pearlite), the impact toughness decreased as the tensile strength increased by the 0.1 V addition. The $800^{\circ}C$ rolling including two step rolling of $800-770^{\circ}C$, exhibited better strength-toughness balance, as compared to the $770^{\circ}C$ rolling. This seems to be kind of conditioning effect at higher temperature, e.g., more uniform deformation effect. In the accelerated cooling after the $750^{\circ}C$ rolling in a dual phase range, the impact toughness was enhanced, despite a large increase in tensile strength. This is believed to be related to the change of main structure from (ferrite + pearlite) to (ferrite + bainite).