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37

项与 Bitlis Eren University 相关的临床试验

NCT06949566

/ Not yet recruitingN/AIIT

Evaluation of Grip Strength and Reaction Time Following Induced Fatigue of the Wrist Flexors: The Acute Effects of Local Vibration

This study aims to investigate the acute effects of local vibration applied after induced fatigue of the wrist flexor muscles on grip strength and upper extremity reaction time.

开始日期2025-04-28

申办/合作机构

Bitlis Eren University

NCT06849076

/ RecruitingN/AIIT

The Effect of Talocrural Joint Manipulation on Ankle Proprioception in Post-Stroke Patients

The aim of the study is to investigate the effect of talocrural joint manipulation on the ankle proprioception of patients with stroke.

开始日期2025-04-14

申办/合作机构

Bitlis Eren University

NCT06848153

/ CompletedN/AIIT

Effect of Plantar Vibration on Ankle Proprioception in Stroke Patients

The aim of the study is to investigate the effect of plantar vibration on the ankle proprioception of patients with stroke.

开始日期2025-03-05

申办/合作机构

Bitlis Eren University

100 项与 Bitlis Eren University 相关的临床结果

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0 项与 Bitlis Eren University 相关的专利（医药）

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1,238

项与 Bitlis Eren University 相关的文献（医药）

2025-05-27·Journal of Leisure Research

Examining the relationships between mindfulness, eudaimonic and hedonic experiences, place attachment, loyalty: the moderating role of flow

作者: Kama, Selin ; Uysal, Muzaffer ; Karagöz, Deniz

2025-05-01·Physica Scripta

The self-nano mixer effect: about homogeneity of tungsten in W_xTa_yCr₅Ni₅Fe₅Mo₅ alloy for radiation shielding

作者: Celik, Fatih Ahmet ; Ercan, Ercan ; Yilmaz, Mucahit ; Aygun, Murat ; Aygun, Zeynep ; Karabulut, Ezman

AbstractIn the present study, the role of elements such as Ta (tantalum), W (tungsten) and Mo (molybdenum) in the alloys as well as standard elements such as Cr (chromium), Fe (iron) and Ni (nickel), was analyzed in more detail by using molecular dynamics study (MD) based density functional theory (DFT) for recently newly produced WxTayCr5Ni5Fe5Mo5 alloys. It was observed that the increase in the Ta/W ratio causes a decrease in radiation shielding feature since there is agglomeration of Ta elements among the W elements, as well as Ta is the less dense element. It is seen that this Ta agglomeration occurs when W elements are separated from each other by Mo, showing thermal stability. This prevents W elements from agglomerating. For this reason, the first solidification in the alloy in the cooling phase starts with Ta atoms. It was observed that the W-Mo duo in the nanostructure plays a mixer role in the alloy. Another feature in this simulation is that, since the agglomeration of W elements in the absence of the Ta element has a heterogeneous effect in the alloys, a strain softening structure is seen in mechanical property and thus the remainder of the material consists of low-density elements. So, the radiation shielding feature is negatively affected. W-Mo duo creates the homogenous dispersing role of W elements. This situation leads to the emergence of a new definition in materials science. This nano mixer effect, which belongs to the W-Mo duo, was described for the first time in this study. It is observed that the mixing effect of W-Mo duo can be effective up to the melting temperature of Mo. Also the effect of Pt-W duo, which creates the best homogeneity effect among transition metals, was also examined. The nano mixer effect of the Pt-W duo was found to be more effective than the Mo-W duo.

2025-04-03·Phosphorus, Sulfur, and Silicon and the Related Elements

Structural characteristics of phosphorylated cotton prepared by gas-phase procedure

作者: Binnetova, Nurlana ; Alosmanov, Rasim ; Turp, Sinan ; Soylak, Mustafa ; Guliyeva, Naila ; Aliyeva, Solmaz ; Buniyat-zadeh, Irada

This study reports the synthesis of phosphorylated cotton fiber (Ph-CF) via a gas-phase oxidative chlorophosphorylation reaction.The process improved the crystallinity and thermal properties of raw cotton fibers (R-CF).Fourier-transform IR spectroscopy confirmed the formation of phosphorus-containing groups, while UV-visible spectroscopy revealed increased UV absorption.X-ray diffraction showed increased crystallinity for Ph-CF, with a crystallinity index (Segal method) of 81.41% vs. 41.05% for R-CF, which was attributed to the removal of amorphous components.The thermogravimetric anal. demonstrated enhanced thermal stability for Ph-CF, with a char yield of 38% at 560 °C compared to 20% for R-CF.SEM revealed noticeable changes in surface morphol., including smoother and more compact fiber surfaces after modification.Energy-dispersive X-ray spectroscopy confirmed the incorporation of phosphorus into the fiber structure, with a measured phosphorus content of 2.27% in Ph-CF.The oxidative chlorophosphorylation reaction in the gas phase induced deeper chem. transformations than a similar liquid-phase process, as evidenced by enhanced crystallinity and structural modifications.These results indicate the potential of gas-phase oxidative chlorophosphorylation for functionalizing cotton with improved properties for advanced applications.

100 项与 Bitlis Eren University 相关的药物交易

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100 项与 Bitlis Eren University 相关的转化医学

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