Qiuchen Ma scite author profile

Qiuchen Ma

5Publications

57Citation Statements Received

154Citation Statements Given

How they've been cited

How they cite others

228

151

Affiliations

Harbin Institute of Technology, Central South University, Beijing Normal University

Publications

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The Impact of Green Open Space on Community Attachment—A Case Study of Three Communities in Beijing

Ding

Zhu

et al. 2017

Sustainability

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Abstract:With the development of urbanization in China, the quality of urban life and community attachment have attracted increasing attention of the governments and society. Existing research on community attachment has mainly examined how individual characteristics affect community attachment, such as their length of residence and socioeconomic status. However, some scholars have become interested in exploring the effects of green open space on community attachment. This research examined whether the distribution of green open space in communities had significant effects on community attachment, and both the impact and path were also investigated. Through a questionnaire survey, relevant data in three communities of Beijing were collected. The impact of green open space layout on community attachment was evaluated by using hierarchical regression, and the impact path was examined by using a structural equation

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Dynamic Weld evolution during ultrasonic welding of Cu–Al joints

Song

Zhou

et al. 2021

Materials Science and Engineering: A

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Reaction mechanism and electrochemical performance of manganese (II) oxide in zinc ion batteries

Zhang

Chen

et al. 2020

Solid State Ionics

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Microstructure and Hardness Evolution during Deformation near Ae₃ in a Cr–Mn–Ti Gear Steel

Xi-nan

Meng

et al. 2018

steel research int.

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Developing appropriate thermomechanical processing routes for decreasing macrohardness of gear steels without heat treatment has a numerous futuristic applications in rolling industry. The effect of different deformation processes applied to Cr–Mn–Ti gear steel on the evolution of microstructure and hardness are studied by using a thermal simulator. It is found that imposing second‐pass deformation near Ae3 temperature inhibits occurrence of dynamic recrystallization (DRX), and increases stored deformation energy in austenite, which significantly promotes ferrite and pearlite transformation. As a result, the maximum volume fraction of ferrite and pearlite approaches ≈90%, and the corresponding macrohardness decreases to ≈215 HV. The difference of ferrite transformation between different deformation processes is analyzed using a thermodynamic equation by taking into account the stored deformation energy. The present calculations indicate that interval between Ae3 and deformation temperature can only be avoided at lower deformation temperature of second‐pass. This restricts static recovery or recrystallization, and quantities of dislocations that act as nucleation sites are retained before ferrite transformation.

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Ultrasonic-Excited Ultrafast Seamless Integration of Heterostructured Liquid Crystalline Elastomers for Multi-responsive Soft Actuators

Zheng

Yuan

et al. 2023

ACS Appl. Mater. Interfaces

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Multicomponent/heterostructured liquid crystalline elastomers (LCEs) have recently garnered extensive attention for the design of soft robots with high dexterity and flexibility. However, the reported integration strategies of LCEs seriously suffer from high welding temperature, long processing time, and poor joint quality. Herein, the high-efficiency seamless ultrasonic welding (UW) of reprogrammable silver nanowire−LCE composites (AgNW−LCEs) have been realized without any auxiliary reagents based on the dynamic silver− disulfide coordination interactions. The elaborate combination of silver− disulfide coordination interactions and UW technology establishes an effective double-network welding mechanism of AgNWs and dynamic LC networks due to the high-frequency vibration at the welding interface. During the UW process, monolithic AgNW−LCEs can be integrated into heterostructured actuators at room temperature for 0.68 s. Furthermore, the welded AgNW−LCEs demonstrate an exceptional strain healing efficiency of ∼100%, a stress healing efficiency of ∼85%, and a maintained orientation of the LC alignment. Taking advantage of the high-efficiency UW technology, the heterostructured AgNW−LCE actuators with different LC alignments or LC monomers have been successfully implemented for a multi-degree-of-freedom soft robotic arm and a time-modulated flower-mimic actuator. This work provides an efficient approach toward the development of multi-responsive entirely soft actuators based on smart polymers.

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Qiuchen Ma

The Impact of Green Open Space on Community Attachment—A Case Study of Three Communities in Beijing

Dynamic Weld evolution during ultrasonic welding of Cu–Al joints

Reaction mechanism and electrochemical performance of manganese (II) oxide in zinc ion batteries

Microstructure and Hardness Evolution during Deformation near Ae₃ in a Cr–Mn–Ti Gear Steel

Ultrasonic-Excited Ultrafast Seamless Integration of Heterostructured Liquid Crystalline Elastomers for Multi-responsive Soft Actuators

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Qiuchen Ma

The Impact of Green Open Space on Community Attachment—A Case Study of Three Communities in Beijing

Dynamic Weld evolution during ultrasonic welding of Cu–Al joints

Reaction mechanism and electrochemical performance of manganese (II) oxide in zinc ion batteries

Microstructure and Hardness Evolution during Deformation near Ae3 in a Cr–Mn–Ti Gear Steel

Ultrasonic-Excited Ultrafast Seamless Integration of Heterostructured Liquid Crystalline Elastomers for Multi-responsive Soft Actuators

Contact Info

Product

Resources

About

Microstructure and Hardness Evolution during Deformation near Ae₃ in a Cr–Mn–Ti Gear Steel