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Fatigue Analysis of Lower Limb Muscle Group Using Elliptical Machine with Constant Loading
( Li-cheng Hsieh ),( Ching-chia Hsieh ) 한국농업기계학회 2018 한국농업기계학회 학술발표논문집 Vol.23 No.1
The elliptical machine or trainer is one of the most popular sports equipment for cardiorespiratory fitness training. In recent years, it is widely used in the family and the gymnasium in Taiwan. Therefore, it is necessary for further discussion about the movements of the elliptical machine, and various levels of the lower-limb muscular fatigue using the elliptical machine in various strengths. The research collected the electromyography (EMG) signal of lower limb muscles, and used the commercially available software to analyze the possible timing that the fatigue appeared. The research applied this system to analyze the lower-limb muscular fatigue when using the elliptical machine with a constant resistance. It compiled the relevant literature, developed the experimental methods and analyzed the results. The subjects of this research arranged ten young people who used elliptical trainer for the first time. They carried the EMG and pedaled in a nature way. Then, Fourier transform was applied for all collected data, and the median frequency was calculated from 80% of the maximum value of the mild fatigue. The result showed that 60% of subject’s rectus muscle had been fatigued first. As a result, when using the elliptical trainer, it was much easier to use the muscles of the front thigh and get tired. Most of the fatigue occurred from overusing the lower limb muscle. By understanding the biomechanics of the elliptical trainer, it could avoid or reduce the fatigue and injuries during exercise. The system can analyze the fatigue timing as well. The fatigue analysis results would help the elliptical machine users avoid injuries, and increasing the efficiency of elliptical training.
Longevity, tumor, and physical vitality in rats consuming ginsenoside Rg1
Chao-Chieh Hsieh,Chiung-Yun Chang,Tania Xu Yar Lee,Jinfu Wu,Suchada Saovieng,Yu-Wen Hsieh,Maijian Zhu,Chih-Yang Huang,Chia-Hua Kuo The Korean Society of Ginseng 2023 Journal of Ginseng Research Vol.47 No.2
Background: Effects of the major ginsenoside Rg1 on mammalian longevity and physical vitality are rarely reported. Purpose: To examine longevity, tumor, and spontaneous locomotor activity in rats consuming Rg1. Methods: A total of 138 Wistar rats were randomized into 2 groups: control (N = 69) and Rg1 (N = 69). Rg1 (0.1 mg/kg per day) were orally supplemented from 6 months of age until natural death. Spontaneous mobility was measured by video-tracking together with body composition (dual energy x-ray absorptiometry) and inflammation markers at 5, 14, 21, and 28 months of age. Results: No significant differences in longevity (control: 706 days; Rg1: 651 days, p = 0.77) and tumor incidence (control: 19%; Rg1: 12%, p = 0.24) were observed between the two groups. Movement distance in the control group declined significantly by ~60% at 21 months of age, together with decreased TNF-α (p = 0.01) and increased IL-10 (p = 0.02). However, the movement distance in the Rg1 group was maintained ~50% above the control groups (p = 0.01) at 21 months of age with greater magnitudes of TNF-α decreases and IL-10 increases. Glucose, insulin, and body composition (bone, muscle and fat percentages) were similar for both groups during the entire observation period. Conclusion: The results of the study suggest a delay age-dependent decline in physical vitality during late life by lifelong Rg1 consumption. This improvement is associated with inflammatory modulation. Significant effects of Rg1 on longevity and tumorigenesis were not observed.
Effect of Vacuum Brazing on Corrosion Resistance of SAF 2205 and Superdex 64 Duplex Stainless Steel
Hsieh, Wen-Chin,Chiu, Liu-Ho,Ling, Yi-Chun 한국부식방식학회 2002 Corrosion Science and Technology Vol.31 No.2
Duplex stainless steel has a combination of better mechanical strength and pitting corrosion resistance, but the precipitated brittle phase as б phase formed during the cooling from the welding procedure will rapidly degrade its properties. In order to avoid the precipitation of secondary phases in the welds, the effect of vacuum brazing on the properties of the welds of UNS S31803 (SAF 2205) and UNS S31200 (SuperDux64) duplex stainless steels has been investigated. Three fillers, such as copper foil, BNi-3 and BNi-7 Ni-based alloy, were used to evaluate the influence of chemical composition on the corrosion resistance. In air quench, a cooling rate of 0.85℃/s and the precipitation of б phase can be inhibited for those studied duplex stainless steels. Under the quenched state, the weight loss of UNS S31803 DSS dipped in 6%FeCl₃ solution at 45℃ for 24 hours is low. However, the precipitation of a phase in UNS S31803 was increased as the cooling rate decreased. When the cooling rate was decreased to 0.067℃/s, the weight loss of UNS S31803 was increased. Owing to the compositional difference between the filler and duplex stainless steel, the selective corrosion occurred at the interface of brazed joints soaked in 6% FeCl₃ solution for 24 hours.
A Project for Dealing with the Missing Character Problem
Hsieh, C.C.,Wittern, Christian,Lehman, John 동국대학교 전자불전연구소 2001 전자불전 Vol.3 No.-
The project described in this paper takes advantage of the 7 year experience of the Academia Sinica Institute of Information Science Document Processing Laboratory in studying the missing character problem. It is intended to develop a packaging and processing system which is compatible with international standards for use in an internet or Windows environment. The initial design constraints were to use XML markup as part of a system to allow the viewing and processing of documents containing missing characters by any personal computer capable of running Windows 98, and using standard software such as Microsoft Word. It requires no modification of the user’s system or software, and provides facilities for sharing data between users. The project was funded by a grant from the Republic of China (Taiwan) Ministry of Education, and is expected to be further developed to run on a larger variety of systems.
HEALTH RISKS POSED BY MYCOTOXINS IN FOODS
Hsieh, D.P.H. Korean Society of ToxicologyKorea Environmental Mu 1990 Toxicological Research Vol.6 No.2
The ability of many toxigenic fungi to invade and develop in a wide variety of raw ingredients of human diet renders human exposure to mycotoxing very difficult to avoid. Most of the energy-rich commodities, such as cereal grains, oil seeds, tree nuts, and dehydrated fruits, are susceptible to mycotoxin contamination. Mycotoxins therefare have been recognized as an important class of hazardous substances in the human food chain. Although human exposure to mycotoxins is largely through ingestion, inhalation and skin contact may also be significant under conditions other than consumption of foods. Human ingestion of mycotoxins is due to consumption of contaminated dietary ingredients and the edible tissues and products of domestic animals that have been exposed to mycotoxins in moldy feed. Large scale acute human mycotoxicoses, such as ergotism in France, alimentary toxic aleukia in Russia, yellow rice syndrome in Japan, endemic nephropathy in Balkan countries, and acute aflatoxin poisonings in India and Taiwan, have been well documented, indicating that mycotoxicosis is a global problem. In some incidents, hundreds of victims were killed and many more became seriously ill. The mycotoxins that have been implicated in the etiology of these human diseases include aflatoxins, citreoviridin, cyclopiazonic acid, ergot alkaloids, moniliformin, ochratoxin A, trichothecenes, tenuazonic acid, and zearalenone. Among these, aflatoxins have been also implicated in the etiology of human primary liver cancer in those high-incidence countries in Africa and southeast Asia. It is well recognized that cause-effect relationship between mycotoxins and human diseases is very difficult to establish, especially for the cancer connection. Careful risk assessment must be performed to determine whether a mycotoxin indeed warrants costly regulatory actions.
Bond mechanism effect on the flexural behavior ofsteel reinforced concrete composite members
Hsieh-Lung Hsu,Jia-Ling Juang 국제구조공학회 2006 Steel and Composite Structures, An International J Vol.6 No.5
This paper discusses the composite mechanism and its effect upon the behavior of a steel reinforced concrete (SRC) member subjected to a flexural load. The relationship between member strength and deformation is established using the bond strength between the steel and reinforced concrete. An analytical model is proposed and used to incorporate the sectional strains and bond strength at the elastic and inelastic stages for moment-curvature relationship derivation. The results from the flexural load tests are used to validate the accuracy of the proposed model. Comparisons between the experimental information and the analytical results demonstrate close moment-curvature relevance, which justifies the applicability of the proposed method.