Research on the Magnetic Washing-Durability in the Surface of Fabric

Gao Jie Yu; Fei Fei Wu; Hua Li Zuo; Yan Chen

doi:10.4028/www.scientific.net/AMR.796.140

Paper Titles

Preparation of Silk Fibroin/Pearl Powder Blend Films
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Effect of Glycerol on Structure and Properties of Silk Fibroin/Pearl Powder Blend Films
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Preparation and Characterization of pH-Responsive Poly(Vinyl-Alcohol)/Sodium Carboxymethylcellulose Nanofibers
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Platelet Adhesion on the Silk Fibroin Material Surface
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Research on the Magnetic Washing-Durability in the Surface of Fabric
p.140

The Influence of the Magnetic Fiber Content on Fabric Wearability
p.144

Research of Antibacterial Properties about Liquid Detergent on the Surface of the Silk Fabric
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Study on Quality and Property of Fine-Denier Raw Silk
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Study on Light Fastness of Natural Yellow Silk Fabric
p.156

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 796Research on the Magnetic Washing-Durability in the...

Research on the Magnetic Washing-Durability in the Surface of Fabric

Abstract:

The magnetic flux density on the surface of magnetic fabric sample was measured by use the special instrument of high-precision Tesla measurement, and the distribution of the magnetic flux density on the surface of magnetic fabric was presented by the methods of information virtualization. The results of the measurement have showed that the values of the magnetic flux density on the surface of magnetic fabric sample, allowing negative value as well as positive value. The magnetic flux density on the surface of magnetic fabric has regional and inhomogeneity of the distribution. The experiment has been conducted on washing and chafing to research the varying characteristics of the magnetic flux density on the surface of magnetic fabric sample. The results of the experiments shows that the magnetic flux density on the surface of magnetic fabric trends to increase firstly in the beginning of washing experiment and then decrease after three times of washing. Generally, fabric loses magnetic after washing 15 times or so. One of the key factors influencing the durability of the magnetic flux density on the surface of magnetic fabric is the content of magnetic fiber in magnetic fabric.

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Periodical:

Advanced Materials Research (Volume 796)

Pages:

140-143

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.796.140

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Online since:

September 2013

Authors:

Gao Jie Yu, Fei Fei Wu, Hua Li Zuo, Yan Chen

Keywords:

Durability, Magnetic Fabric, Magnetic Flux Density on the Surface, Washing

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References

[1] HUANG Cipei. The functional fibers of magnetism[J]. Synthetic Fiber in china, 2005, 29(3): 20-22.

Google Scholar

[2] WANG Wei. The Development of the magnetic fabrics[J]. silk textile technology overseas, 1993(3): 30-33.

Google Scholar

[3] QI Lu, YE Jianzhong. Study on properties of magnetic fiber materials[J]. Journal of Tianjin polytechnic university, 2004, 23: (3): 22-25.

Google Scholar

[4] QI Lu, YE Jianzhong. An Experiment Study on the Performances of Magnetic Fibers[J]. Journal of Textile Research, 2004, 25(1): 68-70.

Google Scholar

[5] MENG Yun, BIAN Xuehai. The Preparation of magnetic fabric[J]. Dyeing and Finishing.

Google Scholar

[6] ZHOU Wansong, LI Hua, ZHAO Min, et al. Research Progress of Magnetic Field to Microcirculation[J]. Progress in Modern Biomedicine, 2010, 10(21): 4195-4197.

Google Scholar

[7] LI Gang, YANG Yingchao, et al. The Status and Prospects of Studies on Biological effects of EMFs [J]. Life Science Instruments, 2008(6)：3-7.

Google Scholar

[8] HUANG Zheyong. Biological Effect of Magnetic Fields on Cardiovascular System [J]. Chinese Journal of Physical Medicine and Rehabilitation, 2008, 36(4), 280-281.

Google Scholar

[9] Kharlamova,N. S, etal. Mathematical description of 3D-magnetic field with reference to physiotherapy[J]. Biomedical Technologies and Radio Electronics, 2011, (9): 72-79.

Google Scholar

[10] Proshin,E. M, etal. Realisation of bioadequate 3D magnetotherapy[J]. Biomedical Technologies and Radio Electronics, 2011, (7): 25-30.

Google Scholar