• Journal of Korean Biological Nursing Science
• /
• 제12권2호
• /
• pp.97-105
• /
• 2010

Purpose: The purpose of this study was to examine the effect of yoga and health calisthenics program in the middle aged women on physiological index and life satisfaction. Methods: This research was an one group pretest-posttest design. A pre and post measurement tool of the program was applied to measure body weight, obesity, rate of body fat, vital capacity, inhalation rate of oxygen, sit-up, grasping power, total physical response, body anteversion, body mass index (BMI), total physical strength, physical strength, health age, life satisfaction. Data collected from this tool was analyzed by SPSS in paired t-test. Results: The results were summarized as follows: yoga program group, the body weight, obesity, BMI, %body fat of the decreased. The results of pulmonary yoga group, vital capacity and inhalation rate of oxygen, total physical strength examination results showed a significant difference. Conclusion: In this study, the yoga program was effective in positive on body composition and physical strength, life satisfaction in middle aged women.

• Geomechanics and Engineering
• /
• 제12권1호
• /
• pp.111-125
• /
• 2017

Swelling and shrinkage characteristics of expansive fine grained soil cause volumetric changes followed by distress and damage to the structures. Soil stabilization can be explained as the alteration of the soil properties by chemical, mechanical or any other means in order to enhance the engineering properties of the soil. Utilization of industrial wastes in soil stabilization is cost effective and environment friendly. This paper presents an experimental study on stabilization of expansive soil using industrial wastes, viz. fly ash and dolochar. The paper includes the evaluation of engineering properties like unconfined compressive strength and California bearing ratio (CBR) of expansive soil collected from Balasore district of Odisha stabilized with fly ash and dolochar in different proportions and to predict the influence of these additives on engineering properties and strength characteristics of expansive soil. Both fly ash and dolochar were found to increase the CBR and decrease many index properties such as liquid limit, plastic limit, plasticity index, swelling index and UCS, thus enhancing the strength parameters of expansive soil.

• 한국지반공학회논문집
• /
• 제16권1호
• /
• pp.5-17
• /
• 2000

본 연구에서는 대구ㆍ경북지역에 분포하는 셰일, 이암, 실트스톤, 사암에 대한 물리ㆍ역학적 특성을 실험실과 현장에서 측정하였다. 절리와 층리가 잘 발달한 퇴적암에서 일축압축 시험을 위한 암석코어 시료를 확보하기가 어렵다. 그래서 퇴적암에 대해서 점하중강도, 슈미트해머 반발치, 압열인장강도, p-파속도, 흡수율등의 특성값들과 일축압축강도의 상관성을 분석하였다. 그 결과 퇴적암의 일축압축강도를 제반지수를 이용하여 평가할 때 기존의 상관식은 일축압축강도를 크게 평가하는 것으로 나타났다. 또한 암석의 화학성분과 광물성분을 XRF와 XRD분석을 통해 조사하였다. 추가적으로 육안식별에 의한 풍화등급 구분은 주관적인 경향에 따라 다르게 분류되는 혼란이 야기되므로 점하중강도, 슈미트해머 반발치, 흡수율과 같은 지수들을 이용하여 암석의 풍화도를 정량적으로 나타내었다.

• 한국항공우주학회지
• /
• 제32권9호
• /
• pp.49-56
• /
• 2004

복합재료가 항공기 구조물 및 기계부품 등에 폭 넓게 적용됨에 따라, 복합재료 구조물에서 가장 취약한 복합재료 체결부의 설계는 매우 중요한 연구분야로 대두되고 있다. 본 논문에서는 복합재료의 기계적 체결부를 마찰이 없는 강체 핀으로 단순화한 선형 유한요소해석을 수행하여 파괴면적지수법으로 복합재료 체결부의 강도를 예측하였다. 파괴면적 지수법을 이용하여 형상, 원공의 크기 및 적층순서가 다른 기계적 체결구조를 갖는 복합 재료의 체결부의 강도를 예측한 결과, 12.2% 내에서 체결부의 강도를 예측할 수 있었다.

• Geomechanics and Engineering
• /
• 제13권6호
• /
• pp.1045-1055
• /
• 2017

Tensile strength is considered key properties for characterizing rock material in engineering project. It is determined by direct and indirect methods. Point load test is a useful testing method to estimate the tensile strengths of rocks. In this paper, the effects of rock shape on the point load index of gypsum are investigated by PFC2D simulation. For PFC simulating, initially calibration of PFC was performed with respect to the Brazilian experimental data to ensure the conformity of the simulated numerical models response. In second step, nineteen models with different shape were prepared and tested under point load test. According to the obtained results, as the size of the models increases, the point load strength index increases. It is also found that the shape of particles has no major effect on its tensile strength. Our findings show that the dominant failure pattern for numerical models is breaking the model into two pieces. Also a criterion was rendered numerically for determination of tensile strength of gypsum. The proposed criteria were cross checked with the results of experimental point load test.

• Journal of Biosystems Engineering
• /
• 제41권4호
• /
• pp.304-312
• /
• 2016

Purpose: Soil strength has been measured using a cone penetrometer, which is making it difficult to obtain the spatial data required for precision agriculture. Our objectives were to evaluate real-time horizontal soil strength (RHSS) to measure soil strength in real time while moving across the field. Using the RHSS data, the tillage depth was determined, and the power consumption of a tractor and rotavators were compared. Methods: The horizontal soil-strength index (HSSI) obtained by the RHSS was compared with the cone index (CI), which was measured using a cone penetrometer. Comparison analysis in accordance with the measurement depth that increased at 5-cm interval was conducted using kriged maps at six sensing depths. For tillage control and evaluation of the power consumption, the system was installed with a potentiometer for tillage depth, a torque sensor from the rear axle, and a power take-off (PTO) shaft. Results: The HSSI was lower than the CI, but they were the same at 54.81% of the total grids for the 5-cm depth and at 3.85% for the 10-cm depth. In accordance with the recommended tillage map, tillage operations between 0 and 15 cm left 2.3% and 7% residue cover on the soil, and that between 20 and 10 cm covered a wider utilization of 3% and 18.4%, respectively. When the tillage depth was 15 cm, the comparison result of the power requirements between the PTO and rear axle in terms of control performance revealed that the maximum power requirements of the axle and PTO were 44.63 and 23.24 kW, respectively. Conclusions: An HSSI measurement system was evaluated by comparison with the conventional soil strength measurement system (CI) and applied to a tractor to compare the tillage power consumption. Further study is needed on its application to various farm works using a tractor for precision agriculture.

• Computers and Concrete
• /
• 제33권1호
• /
• pp.55-75
• /
• 2024

The present study introduces an optimum performance soft computing model for predicting the compressive strength of high-performance concrete (HPC) by comparing models based on conventional (kernel-based, covariance function-based, and tree-based), advanced machine (least square support vector machine-LSSVM and minimax probability machine regressor-MPMR), and deep (artificial neural network-ANN) learning approaches using a common database for the first time. A compressive strength database, having results of 1030 concrete samples, has been compiled from the literature and preprocessed. For the purpose of training, testing, and validation of soft computing models, 803, 101, and 101 data points have been selected arbitrarily from preprocessed data points, i.e., 1005. Thirteen performance metrics, including three new metrics, i.e., a20-index, index of agreement, and index of scatter, have been implemented for each model. The performance comparison reveals that the SVM (kernel-based), ET (tree-based), MPMR (advanced), and ANN (deep) models have achieved higher performance in predicting the compressive strength of HPC. From the overall analysis of performance, accuracy, Taylor plot, accuracy metric, regression error characteristics curve, Anderson-Darling, Wilcoxon, Uncertainty, and reliability, it has been observed that model CS4 based on the ensemble tree has been recognized as an optimum performance model with higher performance, i.e., a correlation coefficient of 0.9352, root mean square error of 5.76 MPa, and mean absolute error of 4.1069 MPa. The present study also reveals that multicollinearity affects the prediction accuracy of Gaussian process regression, decision tree, multilinear regression, and adaptive boosting regressor models, novel research in compressive strength prediction of HPC. The cosine sensitivity analysis reveals that the prediction of compressive strength of HPC is highly affected by cement content, fine aggregate, coarse aggregate, and water content.

• 대한안전경영과학회지
• /
• 제15권4호
• /
• pp.295-309
• /
• 2013

In order to investigate of technology competitiveness for domestic engineering enterprise, using the quantitative and objective patent. In these result, the technology competitiveness(Patent Activity Index, Patent Family Size Index, Patent Impact Index, Technology strength) of our enterprise is far inferior to another country. So we should try to achieve our superiority in competitive power, we devote ourself to put through technical improvements of our domestic engineering enterprise in many ways.

• 통합자연과학논문집
• /
• 제11권2호
• /
• pp.113-120
• /
• 2018

This study was planned to prepare the high strength hydrogel ophthalmic lens containing isocyanate group and nanoparticles. HDI with carbon nanoparticles were used as additives for the basic combination of HEMA, MA and MMA, and the materials were copolymerized with EGDMA as the cross-linking agent and AIBN as the initiator. The mixture was heated at $100^{\circ}C$ for an hour to produce the high performance hydrogel ophthalmic lens by cast mold method. Measurement of the physical characteristics of the produced material showed that the refractive index was in the range of 1.4027~1.4600, water content 25.21~44.01%, contact angle $54.18{\sim}72.94^{\circ}$, visible light transmittance 53.03~92.09%, and tensile strength 0.1024~0.2359 kgf and breaking strength was 0.0872~0.2825 kgf. The results showed an increase of refractive index while the decrease in water content. And also, the breaking strength was highest when the addition ratio of HDI was 5%(wt). As a result of the absorbance measurement, no significant difference was observed in all the samples, so it can be judged that the stabilization of nanoparticles in the polymer was maintained.

• 대한지리학회지
• /
• 제43권6호
• /
• pp.808-823
• /
• 2008

하천 퇴적물질의 마식은 하상과의 충돌과 퇴적물질 입자간의 충돌에 의하여 발생한다. 하천 퇴적물질의 물리적 강도는 마식에 대한 저항의 정도를 나타내는 것으로 정의할 수 있으나, 이에 대한 실증적인 연구는 큰 진전을 보이지 못해왔다. 본 연구에서는 퇴적물질의 마식에 영향을 미치는 요소들(퇴적물질의 물리적강도, 퇴적물질의 크기, 퇴적물질의 양등)의 관계를 파악하기 위해서 마식기를 이용한 물리적 실험을 실시하였으며, 특히 퇴적물질의 물리적 강도가 마식율에 미치는 영향을 분석하는데 강조점을 두고 있다. 이 실험에서는 266개의 퇴적물을 이용했으며, 퇴적물질의 양과 퇴적물질의 평균 무게에 따라 11개의 소집단으로 나눠 실험하였다. 각 실험은 1시간 단위로 이루어 졌으며 퇴적물질은 최장 8시간 동안 마식되었다. 마식율은 각 실험단계마다 퇴적물질 입자 무게의 변동으로 측정하였으며, 총 2,128번의 측정이 이루어졌다. 퇴적물질의 물리적 강도는 시험이 종료한 뒤에 파괴하중을 측정하여 계산한 점 하중강도지수를 통해 측정하였다. 퇴적물질의 점하중강도지수는 마식율과 음의 상관이 있는 것으로 나타났으나, 두 변수들 간의 회귀식의 설명율($R^2$)은 0.22로 나타났다. 퇴적물질의 전반적인 마식은 실험 초기에는 빠르게 진행되지만, 풍화각이 제거된 뒤에는 마식율이 급감하는 경향을 보여주고 있다. 풍화각을 제거하는 초기 단계에는 퇴적물질의 물리적 강도와 마식율의 관계가 미약하지만 이후로 점점 설명율이 상승한다. 이 실험 결과에 의하면 퇴적물질의 물리적 강도는 마식율의 결정적인 설명변수가 아닐 수 있으며, 물리적 속성 이외에도 퇴적물질의 운반조건 등이 마식율에 큰 영향을 주는 것으로 판단된다.