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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.
( Cheng-en Hsieh ),( Yuh-ming Hwu ),( Sheng-hsiang Li ),( Chung-hao Lu ),( Ming-huei Lin ),( Robert Kuo-kuang Lee ) 대한산부인과학회 2016 대한산부인과학회 학술대회 Vol.102 No.-
Objective: To investigate the effect of vascular endothelial growth factor (VEGF) and fibroblast growth factor 2 (FGF2) on revascularization, survival, and oocyte quality of cryopreserved, subcutaneously transplanted mouse ovarian tissue. Methods: Outbred ICR mice (n = 112) were used as the animal model. Vitrified mouse ovarian tissues were treated without (control group) or with VEGF and FGF2 before autologous subcutaneous transplantation. After transplantation for 2 or 3 weeks, grafts’ survival, angiogenesis, and oocyte quality were examined. Results: VEGF and FGF2 promoted revascularization and significantly increased the survival rate of subcutaneously transplanted cryopreserved ovarian tissues compared with the untreated grafted control. The two growth factors did not show long-term effects on the ovarian grafts. In contrast to the untreated ovarian grafts, active folliculogenesis was revealed as the number of various follicles was significantly higher or had an increased trend in the VEGF and FGF2-treated ones. Though the fertilization rate had no differences between VEGF/FGF2 and control group; however, the oocyte quality was much better in the VEGF/FGF2-treated grafts as demonstrated by the higher ratio of blastocyst development. Conclusions: Introducing of angiogenic factors such as VEGF and FGF2 may be a promising strategy to improve revascularization, survival, and oocyte quality of cryopreserved, subcutaneously transplanted mouse ovarian tissue.
Development of Drying Uniformity for Round Hay Bales Dryer
( Yi-cheng Liao ),( Li-cheng Hsieh ) 한국농업기계학회 2018 한국농업기계학회 학술발표논문집 Vol.23 No.1
In Taiwan, most of the farmer dry hay by natural seasoning. Recent data have shown that moisture content should be 18 % or less in round hay bales for safe storage. If moisture content is too high, the hay will be putrefaction. However, it’s hard for the farmer to harvest on time due to raining season in Taiwan and it would drop hay quality as well. Therefore, it’s important to develop a hay dryer to improve the hay quality. The objective of this research was to modify the round bale hay dryer which had been developed by the Department of Bio-Industrial Mechatronics Engineering of National Chung Hsing University, Taiwan. The moisture content of the round bale could be dried below 18 % by the prototype but its drying efficiency is not sufficient, only 5.6 kg/hr. Therefore, the hay bale was sealed using a heavy fabric to prevent the drying air leaking. The drying-finished hay bales were sampled on three parts, upper, medium and lower layers, respectively. The results show that the innovative device can increase the drying efficiency up to 13.2 kg/hr. For the drying uniformity, the moisture content on the external and internal parts of upper and medium layers were significantly different from central parts’, without sealing. Its standard deviation is 8.02. With sealing, the whole hay bales’ moisture content could reach the goal for storage, and its standard deviation is 1.39. The results show that the new sealing approach can increase the drying uniformity significantly. However, sealing a bale manually takes 10 minutes with two workers. It’s time-consuming. Thus, one mechanism for sealing was designed, and one person could finish the sealing work in a minute.
Delay of Surgery for Spinal Metastasis due to the COVID-19 Outbreak Affected Patient Outcomes
Chia-Jung Hsieh,Chun-Yu Wu,Yen-Heng Lin,Yu-Cheng Huang,Wen-Chi Yang,Tom Wei-Wu Chen,Wei-Li Ma,Wei-Hsin Lin,Feng-Ming Hsu,Furen Xiao,Shih-Hung Yang,Dar-Ming Lai,Chang-Mu Chen,Shin-Yi Chao,Fon-Yih Tsuan 대한척추신경외과학회 2023 Neurospine Vol.20 No.4
Objective: The present study is to analyze the effects of the coronavirus disease 2019 (COVID 2019) outbreak and the subsequent lockdown on the outcomes of spinal metastasis patients. Methods: The study was a retrospective analysis of data from a prospective cohort study. All patients underwent surgical intervention for spinal metastases between January 2019 and December 2021 and had at least 3 months of postoperative follow-up. The primary outcome was overall mortality during the 4 different stages (pre-COVID-19 era, COVID-19 pandemic except in Taiwan, national lockdown, lifting of the lockdown). The secondary outcomes were the oncological severity scores, medical/surgical accessibility, and patient functional outcome during the 4 periods as well as survival/mortality. Results: A total of 233 patients were included. The overall mortality rate was 41.20%. During the Taiwan lockdown, more patients received palliative surgery than other surgical methods, and no total en bloc spondylectomy was performed. The time from surgeon visit to operation was approximately doubled after the COVID-19 outbreak in Taiwan (75.97, 86.63, 168.79, and 166.91 hours in the 4 periods, respectively). The estimated survival probability was highest after the national lockdown was lifted and lowest during the lockdown. In the multivariate analysis, increased risk of mortality was observed with delay of surgery, with emergency surgery having a higher risk with delays above 33 hours, urgent surgery (below 59 and above 111 hours), and elective surgery (above 332 hours). Conclusion: The COVID-19 pandemic and related policies have altered daily clinical practice and negatively impacted the survival of patients with spinal metastases.
The back contact modification in high-efficiency Cu₂ZnSn(S,Se)₄ solar cells by a thin MoO₃ layer
Septia KHOLIMATUSSADIAH,Cheng-Ying CHEN,Wei-Chao CHEN,Yi-Rung LIN,Shao-Hung LU,Meng-Chia HSIEH,Jan-Kai CHANG,Chih-I WU,Ruei-San CHEN,Kuei-Hsien CHEN,Li-Chyong CHEN 한국진공학회 2016 한국진공학회 학술발표회초록집 Vol.2016 No.8
Optimization Control Method of Intelligent Cooling and Lubrication for a Geared Spindle
Kun-Ying Li,Ping-Cheng Hsieh,Jen-Ji Wang,Shih-Jie Wei 한국정밀공학회 2023 International Journal of Precision Engineering and Vol.24 No.10
The heat generated by the transmission system in the gear-driven spindle module of the machine tool not only influences the overall temperature field but also induces an excessive rise in temperature of gears tooth flank or rolling contact surface resulting in thermal deformation. In this study, high torque geared spindle was adopted to investigate a cooling control method, and an effective geared spindle cooling control method was proposed and tested. The controller of the cooling system received gear spindle load, rotational speed, and temperature of spindle to adjust the cooling flowrate, and the gas temperature of oil gas lubrication. Under spindle speed of 2000 rpm, the thermal deformations of X-axis, Y-axis, and Z-axis with cooling control are reduced by 43.7%, 46.8%, and 18.6%, respectively. The cooling control method not only can effectively control the rise in temperature of the meshing and contact friction area of the transmission system but also enables the transmission components and bearings of the geared spindle to achieve optimal cooling and lubrication effects.
( Chen Lu ),( Li-cheng Hsieh ) 한국농업기계학회 2018 한국농업기계학회 학술발표논문집 Vol.23 No.1
In Taiwan, farmers have difficulty in making high quality hay using field-curing method. In addition, the harvest period of Pangolagrass coincides with the rainy season in Taiwan. Soluble nutrients lose seriously due to raining before collecting cut grasses in the field. To produce high quality hay, drying in the field should be switched to an artificial or mechanical drying. In this research, a dryer for round hay bales has been developed. 8 batches of hay having initial moisture content (w.b.) of 19~25% were successfully dried to the final goal of 18 % or less. A total weight of round bale hay tested was 2622 kg and they took 4 to 6.5 hours to reach the goal with air temperature of 50°C. The electric consumption was 43.2 MJ/h, 4.5 kg/h for the fuel consumption of propane, and drying energy cost was estimated as NT$0.5/kg. In order to reduce the gas consumption, a biomass boiler burning wood block has been established to replace the gas burner. Ditolyl ether was chosen as the heat transfer medium oil and it would be circulated through the chamber to absorb the thermal energy, thus heating the air. The flow rate of oil is 0.137 m3/min. Theoretically, the oil would be heated from 25°C to 85°C. The air temperature into the heat exchanger is 25°C with air flow rate of 240 ㎥/min. This biomass system would be able to heat the air and successfully reduce the gas consumption during the hay drying process.
Development of a No-till Vegetable Transplanter for Planting Mustard
( Chih-han Lin ),( Li-cheng Hsieh ) 한국농업기계학회 2018 한국농업기계학회 학술발표논문집 Vol.23 No.1
Due to aged farmers and manually planting mustard in Taiwan, a no-till vegetable transplanter was developed. The transplanter was fabricated in a harvested paddy field. The main part of the vegetable transplanter imported from Italy and the target plant was mustard. To adopt the device in the no-till field, a row cleaner, a subsoiler and a set of double disc coulters were designed and installed. The maximum load of the prototype was found on the subsoiler. With a design safety factor is set 2. The result of analysis is 2.04. The row cleaner can remove most straw. The fluted disc coulter and the subsoiler disturb soil effectively. The double disc coulters furrow properly. The experiment has five trials. Each trial plants 50 mustards. The velocity of tractor was 0.19 m/s. The result of the experiment showed the lowest rate of seedling collapsed or laid flat was 6%. The average seedling spacing was 32.2 cm to 39.9 cm. To plant a filed of 1000 ㎡, it would take 1 hr.