• Advances in concrete construction
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• 제10권6호
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• pp.559-571
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• 2020

This study aimed to inspect the axial compression mechanical performance of basalt-fiber-reinforced recycled - concrete (BFRRC)-filled square steel tubular stub column. The replacement ratio of recycled coarse aggregate (RCA) and the basalt fiber (BF) dosage were used as variation parameters, and the axial compression performance tests of 15 BFRRC-filled square steel tubular stub column specimens were conducted. The failure mode and the load-displacement/strain curve of the specimen were measured. The working process of the BFRRC-filled square steel tubular stub column was divided into three stages, namely, elastic-elastoplasticity, sudden drawdown, and plasticity. The influence of the design parameters on the peak bearing capacity, energy dissipation performance, and other axial compression performance indexes was discussed. A mathematical model of segmental stiffness degradation was proposed on the basis of the degradation law of combined secant-stiffness under axial compression. The full-process curve equation of axial compressive stress-strain was proposed by introducing the influencing factors, including the RCA replacement ratio and the BF dosage, and the calculated curve agreed well with the test-measured curve.

• Steel and Composite Structures
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• 제21권3호
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• pp.661-677
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• 2016

The quasi static test of the steel reinforced concrete (SRC) bridge piers and rigid frame arch bridge structure with SRC piers was conducted in the laboratory, and the seismic performance of SRC piers was compared with that of reinforced concrete (RC) bridge piers. In the test, the failure process, the failure mechanism, hysteretic curves, skeleton curves, ductility coefficient, stiffness degradation curves and the energy dissipation curves were analyzed. According to the $M-{\Phi}$ relationship of fiber section, the three-wire type theoretical skeleton curve of the lateral force and the pier top displacement was proposed, and the theoretical skeleton curves are well consistent with the experimental curves. Based on the theoretical model, the effects of the concrete strength, axial compression ratio, slenderness ratio, reinforcement ratio, and the stiffness ratio of arch to pier on the skeleton curve were analyzed.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2006년도 추계 학술발표회 논문집
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• pp.337-340
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• 2006

The purpose of this study is to propose the stiffness reduction factor for flat plate slabs under lateral loads. Current design code (e.g., ACI 318-05) requires considering the effects of cracks for calculating slab stiffness under lateral loads. This study collected the test results of 20 interior slab-column connections, from which stiffness reduction in each test was estimated with respect to the ratio of applied moment to cracking moment ($M_a/M_{cr}$). Based on collected data, this study proposed equations for calculating stiffness reduction with respect to $M_a/M_{cr}$. To verify the proposed equations, this study conducted the experimental test of interior slab-column connections under quasi-static cyclic loading. From the test, load-deformation curve is compared to that obtained from effective beam width method with the proposed equation for the stiffness reduction. It is shown that the effective beam width method with the proposed equation for stiffness reduction predicts accurately the test results.

• 대한산업공학회지
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• 제42권5호
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• pp.360-369
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• 2016

This study attempted to identify the effect of the panel stiffness on the customers' affect, which was not addressed in the research field of affective engineering. For this, this study derived four affects related to the panel stiffness from literature and pre-experiment : hardness, deform consistency, thickness and satisfaction and prepared a questionnaire to evaluate the affects of the panel. In the experiment, 54 adults in the age of 20~50 participated and evaluated the affects of hood, front and rear door for nine full size and luxury sedans by pressing the panels with their hands. As results, participants' affect for the panels were significantly different depending on the force-deflection curves of them, and the subjects' satisfaction of the panels increased as the slope of the curve (stiffness) increases. In addition, it was found that the subjects evaluated the panel with the pressing force up to 14kgf. The findings of the study can be used to increase and control the affective quality of exterior panels on passenger cars.

• Earthquakes and Structures
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• 제22권5호
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• pp.461-473
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• 2022

Energy-saving block and invisible multiribbed frame composite wall (EBIMFCW) is an important shear wall, which is composed of energy-saving blocks, steel bars and concrete. This paper conducted seismic performance tests on six 1/2-scale EBIMFCW specimens, analyzed their failure process under horizontal reciprocating load, and studied the effect of axial compression ratio on the wall's hysteresis curve and skeleton curve, ductility, energy dissipation capacity, stiffness degradation, bearing capacity degradation. A formula for calculating the peak bearing capacity of such walls was proposed. Results showed that the EBIMFCW had experienced a long time deformation from cracking to failure and exhibited signs of failure. The three seismic fortification lines of the energy-saving block, internal multiribbed frame, and outer multiribbed frame sequentially played important roles. With the increase in axial compression ratio, the peak bearing capacity and ductility of the wall increased, whereas the initial stiffness decreased. The change in axial compression ratio had a small effect on the energy dissipation capacity of the wall. In the early stage of loading, the influence of axial compression ratio on wall stiffness and strength degradation was unremarkable. In the later stage of loading, the stiffness and strength degradation of walls with high axial compression ratio were low. The displacement ductility coefficients of the wall under vertical pressure were more than 3.0 indicating that this wall type has good deformation ability. The limit values of elastic displacement angle under weak earthquake and elastic-plastic displacement angle under strong earthquake of the EBIMFCW were1/800 and 1/80, respectively.

• Journal of Mechanical Science and Technology
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• 제19권6호
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• pp.1304-1312
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• 2005

The ride and noise characteristics of a vehicle are significantly affected by the vibration transferred to the body through the chassis mounting points in the engine and suspension. It is known that body attachment stiffness is an important factor of idle noise and road noise for NVH performance improvement. The body attachment stiffness serves as a route design aimed at isolating the vibration generated inside the car due to the exciting force of the engine or road. The test result of the body attachment stiffness is shown in the FRF curve data; the stiffness level and sensitive frequency band are recorded by the data distribution. The stiffness data is used for analyzing the parts that fail to meet the target stiffness at a pertinent frequency band. The analysis shows that the target frequency band is between 200 and 500 Hz. As a result of the comparison in a mounted suspension, the analysis data is comparable to the test data. From these results, there is a general agreement between the predicted and measured responses. This procedure makes it possible to find the weak points before a proto car is produced, and to suggest proper design guidelines in order to improve the stiffness of the body structure.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2013년도 제44회 동계 정기학술대회 초록집
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• pp.599-599
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• 2013

최근의 원자간력현미경(AFM)은 생체물질을 대상으로 여러 구조적 형상뿐만 아니라 물리적 특성 측정이 가능하여 바이오분야에 다양이 활용되고 있다. 줄기세포의 신경세포로 분화 인지에 대한 연구와 관련하여 본 연구에서는 AFM의 한 기능인 Force-Distance curve 측정법을 활용하여 신경암세포주라 불리는 SH-SY5Y를 대상으로 분화 전과 후의 세포막의 stiffness 변화를 측정하였다. 세포막의 stiffness값은 시료표면과 맞닿은 AFM 탐침에 계속적으로 수직방향의 힘이 가해질 시 AFM 캔티레버의 구부러짐 정도로 측정된다. SH-SY5Y는 RA (retinoic acid) 처리에 의해 분화유도 되었으며, 생물학적 방법인 western blotting법을 통해 분화여부를 확인하였다. 측정영역은 AFM topography 이미지 상에서 roughness가 가장 낮은 분화 전과 후 SH-SY5Y의 핵 주변영역으로 선정하였다. 선정된 영역 내에 여러 부분의 분화 전후 세포막의 stiffness 값을 측정하여 통계화한 결과, 분화 전과 후 세포막의 stiffness 차이를 확인할 수 있었다. 분화 전 SH-SY5Y 세포막의 stiffness는 0.79445 N/m인 반면, 분화 후 SH-SY5Y 세포막의stiffness는 0.60324 N/m로 확인되었다. 이는 분화 전에 비하여 분화 후 SH-SY5Y 세포막의 stiffness가 약 24.07% 감소된 것으로 판단할 수 있다. 본 연구는 생물학적 복잡한 방법이 아닌 간단한 방법으로 세포의 stiffness의 변화 측정을 통한 세포의 분화를 판별할 수 있는 방법을 개발한 것으로 여러 줄기세포의 특정세포로 분화여부 판단에 활용할 수 있을 것으로 사료된다.

• 지구물리
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• 제5권3호
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• pp.233-245
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• 2002

이 연구에서는 표면파의 분산 특성을 지반 공학에 적용하여 비파괴 시험으로 강성도 프로파일(stiffness profile of shear)를 얻는 방법인 표면파 기법(SASW, spectral analysis of surface waves)의 효율적이고 경제적인 역산을 수행하기 위하여 해석적으로 자코비안을 도출하였다. 표면파 기법은 지하구조를 균질한 수평 층으로 가정하여 레일리 파의 파장 대 위상 속도 관계인 분산 곡선으로부터 레일리 파와 전단파 간의 속도 비례 관계를 이용하여 지하 천부의 전단파 속도 구조를 파악하는 방법이다. 해석적으로 자코비안 식을 유도하여 역산을 수행하므로서 수치적으로 자코비안을 구해 역산을 수행하는 방법에 비해 지하구조를 N개의 수평 층으로 나누었을 때 계산 시간을 2N 배 빠르게 역산을 수행할 수 있었다. 차분 전개를 통한 이론 분산 곡선 응답 반응 알고리즘으로 이론분산 곡선을 구한 후 해석적으로 도출한 자코비안을 이용하여 제한 조건을 가한 감쇠 최소 자승법을 이용하여 이론 모형에 대한 반응 양상을 검토, 고찰하여 타당성을 검증하였다. 물리적 특성을 직접 확인할 수 있었던 현장의 도로 포장체에 대해 적용하므로서 현장 적용 가능성을 확인하였다. 또한 표면파 기법의 응용으로 터널의 숏크리트 두께 및 배면의 전단파 주상도를 얻을 수 있었고 이로부터 터널의 건전성 평가를 내릴 수 있는 가능성을 제시하였다.

• Smart Structures and Systems
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• 제24권3호
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• pp.361-377
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• 2019

The stiffness of shape memory alloy (SMA) spring while in actuation is represented by an empirical model that is derived from the logistic differential equation. This model correlates the stiffness to the alloy temperature and the functionality of SMA spring as active variable stiffness actuator (VSA) is analyzed based on factors that are the input conditions (activation current, duty cycle and excitation frequency) and operating conditions (pre-stress and mechanical connection). The model parameters are estimated by adopting the nonlinear least square method, henceforth, the model is validated experimentally. The average correlation factor of 0.95 between the model response and experimental results validates the proposed model. In furtherance, the justification is augmented from the comparison with existing stiffness models (logistic curve model and polynomial model). The important distinction from several observations regarding the comparison of the model prediction with the experimental states that it is more superior, flexible and adaptable than the existing. The nature of stiffness variation in the SMA spring is assessed also from the Dynamic Mechanical Thermal Analysis (DMTA), which as well proves the proposal. This model advances the ability to use SMA integrated mechanism for enhanced variable stiffness actuation. The investigation proves that the stiffness of SMA spring may be altered under controlled conditions.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2008년도 추계학술대회 논문집
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• pp.1622-1627
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• 2008

A suspension is a core part, determining running stability and riding quality of vehicles and its stiffness is essential parameters in the process of vehicle designing. Suspension stiffness shall be adjusted to meet requirements of running stability and curve running performance, as adding stiffness to primary suspension for running stability in high-speed running results running performance degradation in curved track. The purpose of the report lies in utilization of usable data for optimization of suspension via analyzing running performance through changing stiffness of railway vehicle suspension.