Core/shell magnetite/copolymer composite nanoparticles enabling highly stable magnetorheological response

Han, Wen Jiao; Wang, Shun; Rui, Xiaoting; Dong, Yuzhen; Choi, Heeseon

doi:10.1002/msd2.12047

Cited by 13 publications

(1 citation statement)

References 38 publications

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“…Many green building solutions with heat dissipation, wastewater systems and energy efficiency are included in this study. Also included is a solar powered cooling system [43,44] technology ability to collect construction data. In order to help India accomplish its long-term sustainability goals, the study will make recommendations on the best procedures and materials to use in the country [45].…”

Section: Sustainable Materialsmentioning

confidence: 99%

Recent Developments in Stimuli Responsive Smart Materials and Applications: An Overview

Ramakrishnan¹,

Kumar²,

Chelladurai³

et al. 2022

Journal of Nanomaterials

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The term “smart materials” can be used to refer a wide variety of different kinds of substances. One capacity that is shared by all of them is the capability to radically alter one or more aspects while operating inside carefully controlled conditions. The age of intelligent materials is arrived, and we are living in it right now. An older definition of smart material described it as a substance that responds swiftly to the environment in which it is located. It has been argued that the word “smart material” now refers to any substance that is capable of detecting, transmitting, or processing a stimulus in order to produce a beneficial effect. This idea has been put forward as a possible expansion of the original meaning of the term. The purpose of this research is to define and categorize different types of intelligent materials. Uses of smart materials are being contemplated in a wide variety of domains, spanning from the realm of technology to that of the modern environment.

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Section: Sustainable Materialsmentioning

confidence: 99%

Recent Developments in Stimuli Responsive Smart Materials and Applications: An Overview

Ramakrishnan¹,

Kumar²,

Chelladurai³

et al. 2022

Journal of Nanomaterials

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Influence of temperature and internal leakage on magnetorheological damper

Zhu,

Rui,

Yang

et al. 2024

Int Journal of Mech Sys Dyn

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To study the influence of temperature and internal leakage on the performance of magnetorheological (MR) damper, a single‐rod straight‐cylinder MR damper with an inside temperature sensor is designed in this study. A unified model for MR damper is given, and a new two‐step parameters identification method is proposed to determine model parameters. The experiment, in which the damper is heated by long‐time displacement excitation, is designed to study the effect of temperature and internal leakage. The influence mechanism of temperature and internal leakage on MR damper is analyzed through theoretical derivation and experimental results in this study.

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Microstructural Mechanical Analysis and Dynamics Simulation of Hollow Soft Magnetic Particle-Based Magnetorheological Fluids

Wang,

He,

Han

et al. 2024

Lecture Notes in Mechanical Engineering

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Core/shell magnetite/copolymer composite nanoparticles enabling highly stable magnetorheological response

Cited by 13 publications

References 38 publications

Recent Developments in Stimuli Responsive Smart Materials and Applications: An Overview

Recent Developments in Stimuli Responsive Smart Materials and Applications: An Overview

Influence of temperature and internal leakage on magnetorheological damper

Microstructural Mechanical Analysis and Dynamics Simulation of Hollow Soft Magnetic Particle-Based Magnetorheological Fluids

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