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1

Research on the Performance of Polypyrrole Coated Conductive Fabrics Prepared from Different Base Materials

Liu Yuanjun, Xue Huangyu, Liu Yanyan, Zhao Jiaqi, Wu Haiying, Zhao Xiaoming

Fibres & Textiles in Eastern Europe

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2023

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Vol. 31, no. 2

75--81

EN

In this paper, polypyrrole coated conductive fabrics were prepared using pyrrole as the monomer, p-toluene sulfonic acid as the doping agent and ammonium persulfate as the oxidant, adopting the simple method of situ polymerization of the liquid phase. Six types of conductive polypyrrole coated fabrics were prepared adopting polyester-cotton blended fabrics, nylon fabrics, wool fabrics, silk fabrics, basalt fabrics and aramid fabric respectively as base materials and using the same process conditions; its electrical conductivity was compared, and the distribution and resistance of the washing fastness of polypyrrole on the surface of those fabrics were studied. Results showed that under the same process conditions, the conductivity of polypyrrole coated terylene fabrics was the best, followed by the polypyrrole coated nylon fabrics and polypyrrole coated wool fabrics. Observed by electron microscope, the distribution of polypyrrole was more homogeneous on different base cloths. After washing, it was concluded that the combination fastness of polypyrrole with polyester-cotton, nylon and wool was better, while the combination fastness of polypyrrole with basalt and aramid was poor.

2

Effects of U-shaped two-step throttling groove parameters on cavitation erosion characteristics

Jia Wenhua, Liu Yanyan, Yin Chenbo, Li Guo, Zhu Dasheng, Ding Shen

Journal of Theoretical and Applied Mechanics

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2021

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Vol. 59 nr 4

529--538

EN

Throttling usually occurs when a fluid passes through an orifice, sometimes even severe cav- itation erosion may occur. In this study, the equation for the cavitation index of a throttling valve was proposed and the cavitation erosion area in the throttle valve was found to change its position with the orifice opening (X). Cavitation features of singular and two-port se- ries throttling grooves were characterized by defining cavitation indexes σ1and σ2, because the cavitation index-σ can determine the occurrence and intensity of cavitation. Then the indexes σ1 and σ2 included internal geometric parameters and external pressure boundaries were obtained, and cavitation indexes curves σ1-X and σ2-X were also plotted. From the curves of the cavitation index, it was observed that cavitation concentration section also would transfer with opening X changes in the U-shaped groove. The depth of the U-shaped groove had a more evident impact on cavitation, whereas the effect of width on cavitation erosion was not so obvious. The intensity of cavitation erosion when the fluid flowed into the orifice section of the U-shaped groove was always larger than that when the fluid flowed away.

3

Study of the Dielectric Properties and Conductivity of Double Coated Glass Fibre Felt Composites

Liu Yuanjun, Wang Caixia, Ma Yiping, Liu Yanyan, Wu Haiying, Zhao Xiaoming

Fibres & Textiles in Eastern Europe

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2021

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Vol. 29, no. 4 (148)

75--80

EN

Graphite/talcum powder double-coated glass fibre felt composites were prepared using glass fibre felt as the base material, graphite as the surface absorbing agent, talcum powder as the underlying absorbing agent, epoxy resin E44 as the adhesive and low molecular 650 polyamide as the curing agent. The influences of the surface graphite content and underlying talcum powder content on the dielectric properties and conductivity of glass fibre felt composites were the main focus of the investigation. Results showed that when the frequency is less than 103 Hz, the values of the real and imaginary parts of the dielectric constant for double-coated glass fibre felt composites are largest when the surface graphite content is 50%. When the frequency is larger than 106 Hz, the value of the real part of the conductivity is largest when the graphite contents are 40% and 50%. When the frequency is less than 104Hz, the real part of the dielectric constant of the glass fiber mat composites is the largest when the talc content is 40%, and when talc content is 60%, the imaginary part of dielectric constant of glass fiber mat composites is the largest. The maximum loss tangent value for the composites occurs when the talcum powder content is 40%. When the frequency is larger, the value of the real part of the conductivity increases gradually.

PL

W pracy przygotowano podwójnie powlekane kompozyty filcu z włókna szklanego w postaci grafit/talk. Użyto filcu z włókna szklanego jako materiału bazowego, grafitu jako powierzchniowego środka pochłaniającego, talku jako podstawowego środka pochłaniającego, żywicy epoksydowej E44 jako kleju i poliamidu 650 o niskiej masie cząsteczkowej jako środek utwardzającego. Głównym przedmiotem badań było określenie wpływu zawartości grafitu powierzchniowego oraz zawartości proszku talku na właściwości dielektryczne i przewodność kompozytów z filcu z włókna szklanego. Wyniki wykazały, że gdy częstotliwość jest mniejsza niż 103 Hz, wartości części rzeczywistej i urojonej stałej dielektrycznej dla podwójnie powlekanych kompozytów z filcu z włókna szklanego są największe, gdy zawartość grafitu powierzchniowego wynosi 50%. Gdy częstotliwość jest większa niż 106 Hz, wartość rzeczywistej części przewodnictwa jest największa, gdy zawartość grafitu wynosi 40% i 50%. Maksymalna wartość tangensa strat dla kompozytów występuje, gdy zawartość talku wynosi 40%. Gdy częstotliwość jest większa, wartość rzeczywistej części przewodnictwa stopniowo wzrasta.

4

Influence of the Thickness of Graphene Coating on the Electromagnetical and Mechanical Properties of Double-Layer Coated Basalt Fibre Fabrics

Liu Yuanjun, Yang Yanfeng, Yang Zhanhua, Liu Yanyan, Su Ying, Niu Jiarong

Fibres & Textiles in Eastern Europe

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2020

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Vol. 28, no. 5 (143)

69--74

EN

A double-layer coated basalt fibre fabric was prepared using polyurethane as the matrix and applying coating technology to the basalt fibre fabric. The influence of the thickness of the graphene coating on the electromagnetic properties and mechanical properties of the double-layer coated basalt fibre fabric was studied. Results showed that when the thickness of the graphene coating was 2.0 mm, the polarising ability, loss ability and attenuating ability of the fabric with respect to electromagnetic waves were all the largest. Along with the increasing thicknesses of the graphene coating, the electromagnetic shielding effectiveness of the double-layer coated basalt fibre fabric also increased, then the shielding ability against electromagnetic waves became stronger.

PL

W pracy przygotowano dwuwarstwowo powlekaną tkaninę z włókna bazaltowego, stosując poliuretan jako matrycę i stosując technologię powlekania na tkaninę z włókien bazaltowych. Badano wpływ grubości powłoki grafenowej na właściwości elektromagnetyczne i mechaniczne dwuwarstwowo powlekanej tkaniny bazaltowej. Wyniki pokazały, że gdy grubość powłoki grafenowej wynosiła 2.0 mm, polaryzacja, zdolność do strat i zdolność tłumienia tkaniny w odniesieniu do fal elektromagnetycznych były największe. Wraz ze wzrostem grubości powłoki grafenowej wzrastała również skuteczność ekranowania elektromagnetycznego dwuwarstwowo powlekanej tkaniny bazaltowej z włókien bazaltowych, a następnie zdolność ekranowania przed falami elektromagnetycznymi stała się silniejsza.