God of Spring

He Wenjie 한국콘텐츠학회 2021 ICCC International Digital Design Invitation Exhib Vol.2021 No.8

Learning Power of Chinese Students: Why Perceived Achievement Goal Motivation, Teacher-Student Closeness and Parent Involvement Matter

( Wenjie He ),( Phinihas Acheampong ),( Qiong Li ) 경북대학교 중등교육연구소 2021 Asia Pacific Journal of Educational Research Vol.4 No.2

It is evident that helping students learn “how to learn” develop learning power. This makes young learners confident and prepared to face the challenges of life. However, this appears hard-to-accomplish in isolation without the active involvement of parents and teachers. This paper aims to investigate how teacher-student closeness, parents involvement and learning power fix together and the extent to which achievement goal orientation explains the association between the context and students’ learning. A sample of 1882 Chinese high school students in Beijing were recruited to participate in the study. Structural equation modeling was used to test the direct and indirect effects of student perceived achievement goal motivation, teacher-student closeness and parent involvement in predicting students’ learning power. The results demonstrate that teacher-student closeness and parent involvement were highly associated with learning power and predicted a high mastery-oriented goal motivation. The mastery-oriented goal motivation as a mediating role partially explained the association between context and students’ learning power. The findings highlight the importance of students’ learning motivation and contexts of teacher and parent involvement in developing students’ learning qualities and power.

Space Charge Accumulation Mechanism Near the Stress Cone of Cable Accessories Under Electrical-Thermal Aging

Dongxin He,Wenjie Gong,Tao Zhang,Wei Wang,Xiaoran Wang,Qingquan Li 대한전기학회 2021 Journal of Electrical Engineering & Technology Vol.16 No.1

Due to the complicated structure composed of diff erent kinds of materials, space charges tend to accumulate within cable accessories, which easily leads to the electrical breakdown. To obtain insights into the space charge accumulation in cable accessories, accelerated aging was performed for 10 kV crosslinked polyethylene (XLPE) insulated cable samples with stress cones, under an AC voltage of 26.1 kV and temperatures of 103 °C and 114 °C. The space charge distribution in the cable insulation was tested at diff erent aging stages. The results show that space charge accumulates in the insulation covered by the stress cones, and the charge density and coaxial distribution region increase during aging. Together with the results for the charge measurement on peeled cable samples, it is concluded that charge accumulation is related to the semiconductor used in the stress cones. It is diffi cult for the space charge generated in the cable insulation to escape through the silicone rubber-based (SR-based) semiconductor in the stress cones, as the ability of this material to conduct charges is lower than that of a cable-shielding ethylene–vinyl acetate-based (EVA-based) semiconductor; therefore, the space charge accumulates near the outer part of the insulation. This research provides insights into the important function of semiconductor on charge accumulation in cable accessories, which will aid in research on optimizing and prolonging the lifetime of cable accessories.

Pressure Contact Interconnection for High Reliability Medium Power Integrated Power Electronic Modules

Xu Yang,Wenjie Chen,Xiaoyu He,Xiangjun Zeng,Zhaoan Wang 전력전자학회 2009 JOURNAL OF POWER ELECTRONICS Vol.9 No.4

This paper presents a novel spring pressure contact interconnect technique for medium power integrated power electronics modules (IPEMs). The key technology of this interconnection is a spring which is made from Be-Cu alloy. By means of the string pressure contact, sufficient press-contact force and good electrical interconnection can be achieved. Another important advantage is that the spring exhibits excellent performance in enduring thermo-mechanical stress. In terms of manufacture procedure, it is also comparatively simple. A 4 ㎾ half-bridge power inverter module is fabricated to demonstrate the performance of the proposed pressure contact technique. Electrical, thermal and mechanical test results of the packaged device are reported. The results of both the simulation and experiment have proven that a good performance can be achieved by the proposed pressure contact technique for the medium power IPEMs.

An electrode universal and self-healable integrated supercapacitor fabricated by physical adsorption based on mussel-inspired highly adhesive gel electrolyte

Gang Qin,Yue Wang,Wenjie He,Da Zhang,Xiaojuan Yu,Fenghan Gong,Hengyi Yu,Xiang Yu,Jia Yang,Qiang Chen 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.122 No.-

Integrated supercapacitor with stable electrochemical performance under complex deformations is theprospective energy storage device for wearable electronics. However, there is often a conflict betweenthe mechanical performance and the specific capacitance of the conventional conductive polymerbasedintegrated supercapacitor. In this work, a novel integrated supercapacitor based on adhesive gelelectrolyte has been prepared by physical adsorption, which not only avoids the drawbacks of the conventionalintegrated supercapacitor but also exhibits the electrode universality including powder electrodematerial. The adhesive triple network polyacrylamide/polydopamine/agar/H3PO4 gel electrolyteis fabricated with high ionic conductivity, toughness and adhesion. Based on this, the integrated supercapacitoris assembled by spraying activated carbon powder on both sides of the pre-stretched biaxiallygel electrolyte. Due to the strong interfacial adhesion, such a device exhibits low interfacial resistance andhigh specific capacitance of 155 mF/cm2 at 0.5 mA/cm2. More impressively, the capacitance retention canreach 92.4% after 10 cutting/healing cycles and even keep the brilliant self-healabillity at 20 C. Additionally, it can hold stable electrochemical performance when exposed to harsh environments. The physical adsorption strategy would offer novel inspiration for the development of integrated supercapacitorand has great practical applications in wearable and portable electronics.

Pressure Contact Interconnection for High Reliability Medium Power Integrated Power Electronic Modules

Yang, Xu,Chen, Wenjie,He, Xiaoyu,Zeng, Xiangjun,Wang, Zhaoan The Korean Institute of Power Electronics 2009 JOURNAL OF POWER ELECTRONICS Vol.9 No.4

This paper presents a novel spring pressure contact interconnect technique for medium power integrated power electronics modules (IPEMs). The key technology of this interconnection is a spring which is made from Be-Cu alloy. By means of the string pressure contact, sufficient press-contact force and good electrical interconnection can be achieved. Another important advantage is that the spring exhibits excellent performance in enduring thermo-mechanical stress. In terms of manufacture procedure, it is also comparatively simple. A 4 kW half-bridge power inverter module is fabricated to demonstrate the performance of the proposed pressure contact technique. Electrical, thermal and mechanical test results of the packaged device are reported. The results of both the simulation and experiment have proven that a good performance can be achieved by the proposed pressure contact technique for the medium power IPEMs.

Temperature dependence of complete sets of material constants of Pb(In1/2Nb1/2)O3–Pb(Mg1/3Nb2/3)O3–PbTiO3 crystals using different poling methods

Tang Haiyue,Zhang Wenjie,Yang Xiaoming,Wang Zujian,Su Rongbing,Liu Ying,Long Xifa,He Chao 한국물리학회 2023 Current Applied Physics Vol.55 No.-

The complete sets of material constants of <001>-oriented two wafers (HP: high-performance and LP: low-performance) using direct current poling (DCP) and alternating current poling (ACP) were investigated. ACP can improve the longitudinal and transverse piezoelectric properties (about 20% increase in both d31 and d33) and decrease the shear properties (about 40% decrease in d15). The compliance constants SEij of both ACP HP and LP samples have the similar change trend (the absolute of SE11, SE12, SE13, SE33, SE66 increasing, the SE44 decreasing), while most stiffness constants CEij of both ACP HP and LP samples show the different change trend. The values of CE11, CE12, CE13 of ACP LP samples increase by at least 50% while ACP HP samples decrease by about 5%. As temperature elevated, the dielectric properties (εT11/ε0, εT33/ε0), piezoelectric properties (d15, d31, d33) and electromechanical coupling coefficients (k15, k33) increased steadily, while the k31 keep stable.

Chondrogenic Differentiation and Three Dimensional Chondrogenesis of Human Adipose-Derived Stem Cells Induced by Engineered Cartilage-Derived Conditional Media

Hengyun Sun,Yu Liu,Ting Jiang,Xia Liu,Aijuan He,Jie Li,Wenjie Zhang,Wei Liu,Yilin Cao,Guangdong Zhou 한국조직공학과 재생의학회 2014 조직공학과 재생의학 Vol.11 No.1

Due to lack of optimal inductive protocols, how to effectively improve chondrogenesis of adipose-derived stem cells (ASCs) is still a great challenge. Our previous studies demonstrated that the culture media derived from chondrocyte-scaffold constructs (conditional media) contained various soluble chondrogenic factors and were effective for directing chondrogenic differentiation of bone marrow stem cells. Nevertheless, it remains unclear whether the conditional media can induce ASCs towards chondrogenic differentiation, especially for three-dimensional (3D) cartilage formation in a preshaped scaffold. In this study, it demonstrated that the conditional media derived from chondrocyte-scaffold constructs could promote ASCs to differentiate into chondrocyte-like cells, with similar expression of type II collagen to those induced by chondrogenic growth factors. Moreover, the expression level of chondrocyte-specific genes, such as SOX9, type II collagen, and COMP, was even higher in conditional medium group (CM) than that in optimized chondrogenic growth factor group (GF), indicating that the conditional media can serve as an effective inducer for chondrogenic differentiation of ASCs. Most importantly, the conditional media could also induce ASC-scaffold constructs to form 3D cartilage-like tissue with typical lacunae structures and positive expression of cartilage specific matrices, even higher contents of GAG and type II collagen were achieved in CM group compared to GF group. The current study establishes a simple, but stable, efficient, and economical method for directing 3D cartilage formation of ASCs, a strategy that may be more closely applicable for repairing cartilage defects.

Solidification of uranium mill tailings by MBS-MICP and environmental implications

Niu Qianjin,Li Chunguang,Liu Zhenzhong,Li Yongmei,Meng Shuo,He Xinqi,Liu Xinfeng,Wang Wenji,He Meijiao,Yang Xiaolei,Liu Qi,Liu Longcheng 한국원자력학회 2022 Nuclear Engineering and Technology Vol.54 No.10

Uranium mill tailing ponds (UMTPs) are risk source of debris flow and a critical source of environmental U and Rn pollution. The technology of microbial induced calcium carbonate precipitation (MICP) has been extensively studied on reinforcement of UMTs, while little attention has been paid to the effects of MICP on U & Rn release, especially when incorporation of metakaolin and bacillus subtilis (MBS). In this study, the reinforcement and U & Rn immobilization role of MBS -MICP solidification in different grouting cycle for uranium mill tailings (UMTs) was comprehensively investigated. The results showed that under the action of about 166.7 g/L metakaolin and ~50% bacillus subtilis, the solidification cycle of MICP was shortened by 50%, the solidified bodies became brittle, and the axial stress increased by up to 7.9%, and U immobilization rates and Rn exhalation rates decrease by 12.6% and 0.8%, respectively. Therefore, the incorporation of MBS can enhance the triaxial compressive strength and improve the immobilization capacity of U and Rn of the UMTs bodies solidified during MICP, due to the reduction of pore volume and surface area, the formation of more crystals general gypsum and gismondine, as well as the enhancing of coprecipitation and encapsulation capacity