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Enhanced UV photo-stabilization of Nylon 6 filament with reduced graphene oxide/polyurethane nanocomposite Inks

Tian, Mingwei ; Wang, Zongqian ; Qu, Lijun ; [et al.]

Emerald ; 2018

In: International Journal of Clothing Science and Technology Vol. 30, No. 6 ( 2018-10-18), p. 817-827

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In: International Journal of Clothing Science and Technology, Emerald, Vol. 30, No. 6 ( 2018-10-18), p. 817-827

Abstract: Nylon 6 filaments have weak light and heat resistance in terms of stability, which restrict its application in engineering field. The purpose of this paper is to prepare a new photo-stabilization functional nanocomposite inks by using graphene nanosheet as UV light-resisting functional materials incorporated with polyurethane. Design/methodology/approach Sunlight-resisting functional nylon filaments were produced by the continuous solution dip coating technology, through which the functional inks was coated on the surface of nylon 6 filament. The surface morphology of the coated filaments was characterized by scanning electron microscopy and the graphene/polyurethane nanocomposite inks as the coating agent was confirmed and well dispersed on the fiber’s surface. Findings Under UV exposure, the strength loss rate of the graphene-modified nylon filaments was less than 50 percent, while that of the control nylon filament was over 85 percent, which indicated that graphene remarkably enhanced the light-resistant property of nylon. Besides, graphene/polyurethane-coated Nylon 6 filaments exhibited reasonable electrical properties and the electrical conductivity could reach 10–4 S/cm. Originality/value Graphene inks was first proposed as the UV photo-stabilization in this paper.

Type of Medium: Online Resource

ISSN: 0955-6222

URL: Article

DOI: 10.1108/IJCST-07-2017-0107

Language: English

Publisher: Emerald

Publication Date: 2018

detail.hit.zdb_id: 2007303-3

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The effect of char on flame retardancy of cotton, flame retardant cotton and poly(m-phenylene isophthalamide) fabrics investigated by cone calorimeter

Zhang, Xiansheng ; Du, Xianjing ; Wang, Lili ; [et al.]

Emerald ; 2019

In: International Journal of Clothing Science and Technology Vol. 31, No. 4 ( 2019-08-05), p. 532-543

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In: International Journal of Clothing Science and Technology, Emerald, Vol. 31, No. 4 ( 2019-08-05), p. 532-543

Abstract: The purpose of this paper is to investigate the effect of char on the flame retardancy of fabrics by a cone calorimeter, which is an important factor to compare the flame retardancy of different fabrics. Design/methodology/approach Cone calorimeter measurements were carried out in a Fire Testing Technology (UK) apparatus at the heat fluxes of 50 and 75 kW/m 2 . Fabrics with one and three layers were employed, with the name of cotton1, cotton3, FR cotton1, FR cotton3, PMIA1 and PMIA3. The dimension of the fabric was 100×100 mm 2 . A cross-steel grid was used to prevent the fabrics from curling during burning. The distance between the bottom of the cone heater and the top of the sample was 25 mm. Findings This work was generously supported by National Key R & D Program of China (Project No. 2017YFB0309000), Natural Science Foundation of Shandong Province of China (Project No. ZR2019BEM026), Natural Science Foundation of China (Project No. 51803101) and China postdoctoral science foundation funded project (Project No. 2018M632619). Originality/value The present research provides insight into the effect of the char formation on the flame retardancy of the fabrics, and a method to comprehensively investigate the char influence in the flame retardancy of the fabrics by a cone calorimeter is proposed.

Type of Medium: Online Resource

ISSN: 0955-6222

URL: Article

DOI: 10.1108/IJCST-08-2018-0103

Language: English

Publisher: Emerald

Publication Date: 2019

detail.hit.zdb_id: 2007303-3

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The parameter identification model considering both geometric parameters and joint stiffness

Bai, Jing ; Fan, Le ; Zhang, Shuyang ; [et al.]

Emerald ; 2019

In: Industrial Robot: the international journal of robotics research and application Vol. 47, No. 1 ( 2019-09-11), p. 76-81

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In: Industrial Robot: the international journal of robotics research and application, Emerald, Vol. 47, No. 1 ( 2019-09-11), p. 76-81

Abstract: Both geometric and non-geometric parameters have noticeable influence on the absolute positional accuracy of 6-dof articulated industrial robot. This paper aims to enhance it and improve the applicability in the field of flexible assembling processing and parts fabrication by developing a more practical parameter identification model. Design/methodology/approach The model is developed by considering both geometric parameters and joint stiffness; geometric parameters contain 27 parameters and the parallelism problem between axes 2 and 3 is involved by introducing a new parameter. The joint stiffness, as the non-geometric parameter considered in this paper, is considered by regarding the industrial robot as a rigid linkage and flexible joint model and adds six parameters. The model is formulated as the form of error via linearization. Findings The performance of the proposed model is validated by an experiment which is developed on KUKA KR500-3 robot. An experiment is implemented by measuring 20 positions in the work space of this robot, obtaining least-square solution of measured positions by the software MATLAB and comparing the result with the solution without considering joint stiffness. It illustrates that the identification model considering both joint stiffness and geometric parameters can modify the theoretical position of robots more accurately, where the error is within 0.5 mm in this case, and the volatility is also reduced. Originality/value A new parameter identification model is proposed and verified. According to the experimental result, the absolute positional accuracy can be remarkably enhanced and the stability of the results can be improved, which provide more accurate parameter identification for calibration and further application.

Type of Medium: Online Resource

ISSN: 0143-991X , 0143-991X

URL: Article

DOI: 10.1108/IR-11-2018-0223

Language: English

Publisher: Emerald

Publication Date: 2019

detail.hit.zdb_id: 2025337-0

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Hybrid calibration and detection approach for mobile robotic manufacturing systems

Bai, Jing ; Zhang, Yuchang ; Qin, Xiansheng ; [et al.]

Emerald ; 2020

In: Industrial Robot: the international journal of robotics research and application Vol. 47, No. 4 ( 2020-05-11), p. 511-519

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In: Industrial Robot: the international journal of robotics research and application, Emerald, Vol. 47, No. 4 ( 2020-05-11), p. 511-519

Abstract: The purpose of this paper is to present a visual detection approach to predict the poses of target objects placed in arbitrary positions before completing the corresponding tasks in mobile robotic manufacturing systems. Design/methodology/approach A hybrid visual detection approach that combines monocular vision and laser ranging is proposed based on an eye-in-hand vision system. The laser displacement sensor is adopted to achieve normal alignment for an arbitrary plane and obtain depth information. The monocular camera measures the two-dimensional image information. In addition, a robot hand-eye relationship calibration method is presented in this paper. Findings First, a hybrid visual detection approach for mobile robotic manufacturing systems is proposed. This detection approach is based on an eye-in-hand vision system consisting of one monocular camera and three laser displacement sensors and it can achieve normal alignment for an arbitrary plane and spatial positioning of the workpiece. Second, based on this vision system, a robot hand-eye relationship calibration method is presented and it was successfully applied to a mobile robotic manufacturing system designed by the authors’ team. As a result, the relationship between the workpiece coordinate system and the end-effector coordinate system could be established accurately. Practical implications This approach can quickly and accurately establish the relationship between the coordinate system of the workpiece and that of the end-effector. The normal alignment accuracy of the hand-eye vision system was less than 0.5° and the spatial positioning accuracy could reach 0.5 mm. Originality/value This approach can achieve normal alignment for arbitrary planes and spatial positioning of the workpiece and it can quickly establish the pose relationship between the workpiece and end-effector coordinate systems. Moreover, the proposed approach can significantly improve the work efficiency, flexibility and intelligence of mobile robotic manufacturing systems.

Type of Medium: Online Resource

ISSN: 0143-991X , 0143-991X

URL: Article

DOI: 10.1108/IR-09-2019-0194

Language: English

Publisher: Emerald

Publication Date: 2020

detail.hit.zdb_id: 2025337-0

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