Insights into functional polymer-based organic-inorganic nanocomposites as leather finishes

Fan, Qianqian; Ma, Jianzhong; Xu, Qunna

doi:10.1186/s42825-019-0005-9

Cited by 37 publications

(25 citation statements)

References 52 publications

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“…The study in [1] describes the current trend in applying vegetable tanning technology and wet processing methods based on new solvents, ionic and other liquids when solving the problem of using chromium in the leather industry. In [2][3][4][5][6][7][8][9][10][11], the influence of the technology of liquid, chemical, and mechanical treatment on the properties of leather collagens and its deformation and filtration parameters was studied. In [12], a review of 39 peer-reviewed articles in English devoted to the study of leather processing is given, of which 30 articles were published in the last 6 years.…”

Section: Introductionmentioning

confidence: 99%

Experimental dehydration of wet fibrous materials

et al. 2021

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The article presents the results of experimental studies to substantiate the performance of the method of simultaneous extracting excess moisture from wet leather semi-finished products. In the experiment, the influence of the feeding speed, the pressing force of the squeezing rollers on the amount of moisture removed from two layers of the leather semi-finished product after their squeezing was determined. The experiment was conducted using a moisture-removing material - a BM brand monchon, laid on a guide bar, on which two layers of the wet leather semi-finished product were previously folded. A monchon of the LASCH brand is folded between the layers of a semi-finished leather product. Due to the flexibility of the monchon, the displacement of semi-finished leather products movement path along the conveying device is reduced.

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Section: Introductionmentioning

confidence: 99%

Experimental dehydration of wet fibrous materials

et al. 2021

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“…These structural advantages can promote stable integration and uniform dispersion of abundant high-Z elements in NL. NL features of remarkable mechanical property, tailorability, and durability demonstrate an ideal candidate matrix for X-ray shielding materials. , …”

Section: Introductionmentioning

confidence: 99%

“…NL features of remarkable mechanical property, tailorability, and durability demonstrate an ideal candidate matrix for X-ray shielding materials. 25,26 Some studies on natural leather-based X-ray shielding materials have realized satisfactory performance at 20−120 keV by impregnating bismuth as the functional element. 27,28 However, the shielding performance in 40−83 keV still needs improvement because of the weak absorption region of bismuth in this X-ray energy range.…”

Section: Introductionmentioning

confidence: 99%

Lightweight and Flexible Bi@Bi-La Natural Leather Composites with Superb X-ray Radiation Shielding Performance and Low Secondary Radiation

Zhong

Xiao

et al. 2020

ACS Appl. Mater. Interfaces

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A high-shielding, low secondary radiation, lightweight, flexible, and wearable X-ray protection material was prepared by coimpregnating La 2 O 3 and Bi 2 O 3 nanoparticles in natural leather (NL) with an additional Bi 2 O 3 coating at the bottom surface of the leather. The prepared Bi 28.2 @Bi 3.48 La 3.48 −NL (28.2 and 3.48 mmol•cm −3 are the loading contents of elements) showed excellent X-ray shielding ability (65−100%) in a wide energy range of 20−120 keV with reduced scattered secondary radiation (30%). The bottom surface coating played a critical role in enhancing the X-ray attenuation and reducing the scattered secondary radiation by reflecting and deflecting incident X-ray photons. Excellent mechanical property with superb bending resistance of the NL matrix was properly maintained, and its tensile strength and tearing load were 15.39 MPa and 25.81 N•mm −1 , respectively. This lightweight and wearable high-performance protection material can facilitate safety and comfortability during intensive activities of practitioners in the health care industry.

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“…Wood waste is classified by European standards as common waste, not hazardous or toxic to the environment. The transformation of waste (cryogenically ground and functionalized) into new valueadded products will lead to remarkable improvements in the life cycle of raw materials and sustainable use of this waste, contributing to increasing sustainability, improving eco-efficiency and economic efficiency and reducing the "pressure" of environmental waste (Alexandrescu et al, 2019;Zhu et al, 2017;Fan et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Development and characterization of biodegradable compound based on EPDM and wood waste

Niţuică¹,

Alexandrescu²,

Georgescu³

et al. 2020

Proceedings of the 8th International Conference on Advanced Materials and Systems

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In the European Union, the potential for recycling technological and post-consumer polymeric waste is untapped. Their recycling and reuse are very low, compared to other types of waste such as glass, paper, etc., and the rates of storage, even of incineration, is very high in terms of percentage. Therefore, by reusing them, but also making use of new advanced technologies, we can contribute to improving the quality of products, and to environmental protection by recycling waste, protecting human health by eliminating toxins during their incineration, but also increasing turnover for global economic agents. Thus, this paper presents the obtaining and characterization of an antibacterial compound based on EPDM elastomer and wood waste (sawdust). The antibacterial compound is characterized from a physical-mechanical and structural point of view (FT-IR), all according to standards in force.

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Insights into functional polymer-based organic-inorganic nanocomposites as leather finishes

Cited by 37 publications

References 52 publications

Experimental dehydration of wet fibrous materials

Experimental dehydration of wet fibrous materials

Lightweight and Flexible Bi@Bi-La Natural Leather Composites with Superb X-ray Radiation Shielding Performance and Low Secondary Radiation

Development and characterization of biodegradable compound based on EPDM and wood waste

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