Yarn on yarn abrasion performance of high modulus polyethylene fiber improved by graphene/polyurethane composites coating

Ning, Fanggang; He, Guifang; Sheng, Chunfu; He, Hongwei; Jian, Wang; Zhou, Rong; Ning, Xin

doi:10.1177/1558925020983563

Cited by 42 publications

(29 citation statements)

References 30 publications

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“…Abrasion is related to the physical destruction of yarns and textiles due to the repetitive rubbing of a surface over another, resulting in heating and the loss of performance (e.g., mechanical damage). 40,41 Frictional forces developed in the yarn due to the motion of the test are dissipated in the filaments by developing tensile and shear stresses, and repetition of such stresses eventually causes filament fatigue, which results in the loss of mechanical properties, and eventually rupture. 42 This property was also accessed as abrasion resistance of the used yarns and contributes to predict the performance of the final fibrous structure.…”

Section: Characterization Of the Polyethylene Terephthalate And Polyl...mentioning

confidence: 99%

Engineering hybrid textile braids for tendon and ligament repair application

Peixoto

Carneiro

Fangueiro

et al. 2021

J of Applied Polymer Sci

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Challenges involving tendon and ligament repair have motivated the investigation of new strategies to improve clinical outcomes. These have been mainly based on polymer constructs, which may be non-biodegradable or biodegradable. The former typically fails due to lack of device integration and the latter demands a complex balance between biodegradability and tissue ingrowth, often failing due to insufficient mechanical properties. This work presents the development of hybrid braids based on polyethylene terephthalate (PET) and polylactic acid (PLA) yarns. A textile technique was used to fabricate braids based on 16 multifilament yarns of varying PLA/PET composition. The composition was varied to maximize biodegradability while ensuring mechanical performance. The braids' morphology, physical and mechanical properties were characterized. As production parameters and architecture were maintained, the braids exhibited similar porosity and wicking ability. The breaking force and stiffness decreased significantly as the number of PLA yarns increased, although strain levels remained constant. Braids containing 10 and 12 PET yarns (out of the total 16 yarns) demonstrated good creep and force-relaxation behavior, as well as resistance to cyclic loading. These compositions were selected for future work, to be assembled into more elaborate structures to mimic the fibrous organization and tensile properties of different tendons/ ligaments.

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Section: Characterization Of the Polyethylene Terephthalate And Polyl...mentioning

confidence: 99%

Engineering hybrid textile braids for tendon and ligament repair application

Peixoto

Carneiro

Fangueiro

et al. 2021

J of Applied Polymer Sci

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“…21 Generally, most straw biomass is converted to high-value chemicals using biomechanical, biological, or different chemical treatments that cause a significant effect on GHGs reduction and accelerate the sustainable development of the world. 26,27 Preethi et al investigated the technoeconomic analysis and the environmental concerns of lignocellulosic biomass regarding its application as a valuable energy source. 28 In addition, Rodríguez et al studied the effects of sintering and slagging parameters in biomass combustion in biofuel production and reducing the adverse environmental effects.…”

Section: Introductionmentioning

confidence: 99%

“…Due to the intricate compositions in the connected diverse straw biomass, the efficient application of plant biomass is faced with numerous obstacles 21 . Generally, most straw biomass is converted to high‐value chemicals using biomechanical, biological, or different chemical treatments that cause a significant effect on GHGs reduction and accelerate the sustainable development of the world 26,27 . Preethi et al investigated the techno‐economic analysis and the environmental concerns of lignocellulosic biomass regarding its application as a valuable energy source 28 .…”

Section: Introductionmentioning

confidence: 99%

Determination of the heat capacity of cellulosic biosamples employing diverse machine learning approaches

Karimi

Khosravi

Fathollahi

et al. 2022

Energy Science & Engineering

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Heat capacity is among the most well‐known thermal properties of cellulosic biomass samples. This study assembles a general machine learning model to estimate the heat capacity of the cellulosic biomass samples with different origins. Combining the uncertainty and ranking analyses over 819 artificial intelligence models from seven different categories confirmed that the least‐squares support vector regression (LSSVR) with the Gaussian kernel function is the best estimator. This model is validated using 700 laboratory heat capacities of four cellulosic biomass samples in wide temperature ranges (absolute average relative deviation = 0.32%, mean square errors = 1.88 × 10−3, and R2 = 0.999991). The data validity investigation approved that only one out of 700 experimental data is an outlier. The LSSVR model considers the effect of the cellulosic samples' crystallinity, temperature, and sulfur and ash content on their heat capacity. The overall prediction accuracy of the LSSVR is more than 62% better than the achieved accuracy using the empirical correlation.

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“…e results show that the theoretical analysis is effective, novel, and correct. In recent years, different types of novel methods captured the attention of some researchers to solve nonlinear models such as complex-valued memristive neural networks [43], abrasive belt grinding considering residual stress [44], multidimensional prediction method [45], graphene/ polyurethane composites coating [46], and ultrahigh molecular weight polyethylene fiber [47].…”

Section: Introductionmentioning

confidence: 99%

A Theoretical Study of Reverse Roll Coating for a Non-Isothermal Third-Grade Fluid under Lubrication Approximation Theory

Ali

Zahid

Hou

et al. 2022

Mathematical Problems in Engineering

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The flow of non-Newtonian fluids is extremely important in a variety of industrial applications and processes, including painting, printing, and coating. The goal of this paper is to develop a mathematical model for an incompressible, non-isothermal third-grade fluid as it travels through a minor gap between two heated rolls that are revolving in the opposite direction. Using appropriate dimensionless parameters, the dimensionless version of the governing equations is constructed. To simplify the nondimensional form of the governing equations, the LAT (lubrication approximation theory) is applied. It is mentioned that the perturbation approach should be used. It is a very important tool in modern mathematical physics and practical fluid mechanics, and it is used a lot. Through perturbation techniques, exact solutions for velocity distribution, flow rate, temperature distribution, and pressure gradient are offered. To observe the flow pattern, streamlines are also drawn. Numerical outcomes of some substantial engineering quantities like flow rate, roll separation force, power input, and pressure distribution are found. Some outcomes are displayed graphically although others are presented in tabular form. We have observed that the third-grade parameters give a way to control velocity, pressure gradients, flow rate, and coating thickness. Further, increasing the velocities ratio values lowers the coating thickness on the web. Furthermore, the Brickman number has a significant influence on the temperature profile and has increased with the increase in the Brickman number. Both the model and the numerical calculations are in agreement with the viscous fluid model that is already present in the literature.

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Yarn on yarn abrasion performance of high modulus polyethylene fiber improved by graphene/polyurethane composites coating

Cited by 42 publications

References 30 publications

Engineering hybrid textile braids for tendon and ligament repair application

Engineering hybrid textile braids for tendon and ligament repair application

Determination of the heat capacity of cellulosic biosamples employing diverse machine learning approaches

A Theoretical Study of Reverse Roll Coating for a Non-Isothermal Third-Grade Fluid under Lubrication Approximation Theory

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