Experimental Study of the Flexural and Compression Performance of an Innovative Pultruded Glass-Fiber-Reinforced Polymer-Wood Composite Profile

Yao, Qi; Xiong, Wei; Liu, Weiqing; Fang, Hai; Lu, Weidong

doi:10.1371/journal.pone.0140893

Cited by 9 publications

(4 citation statements)

References 32 publications

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“…Recently, most of the research has focused on particleboard materials and the optimization of wood performance [5][6][7][8][9][10]. Moslemi et al found that cellulose nanofibers can be extracted from rice straw and mixed with urea-formaldehyde adhesive for the production of medium density fiberboard (MDF) to optimize the rupture modulus, elastic modulus and internal bond strength of the MDF [11].…”

Section: Introductionmentioning

confidence: 99%

Interaction and influence of a flow field and particleboard particles in an airflow forming machine with a coupled Euler-DPM model

et al. 2021

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Particleboards are widely used in the artificial board market, which can be constructed from a variety of raw materials and require small amounts of energy to be produced. In the particleboard production process, forming machines play an important role as the key equipment for achieving continuous production. In recent years, airflow forming machines have received increasing attention in particleboard production lines because of their strong separation ability and low price. However, the internal flow field is complex and difficult to control, which affects the surface quality and strength of the particleboard. The most pressing technical difficulty is controlling the flow field characteristics of the airflow paver. At present, the research on this subject is conducted primarily through repeated experiments, which entail long research periods and high processing costs. To reduce human and financial costs, in this study, Computational Fluid Dynamics (CFD) is employed to investigate the flow field and the gas-solid two-phase flow field coupled with particle movement of an airflow forming machine. The accuracy of the calculation model is verified by comparing characteristic point velocities obtained from experimental analysis and a simulation. The simulation results show that in practical production, the frequency of a negative pressure fan should be greater than 27 Hz. It is necessary to set the shoulder properly, and the slab smoothness can be improved by moving the shoulder back on the premise of meeting the strength requirements of the box. The distance between the shoulders of the box body should be less than 2570 mm, and particles with uniform diameter should be added to the paving box to reduce the turbulence effect, improve the quality of particle forming and provide actual particleboard production with a solid theoretical foundation.

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Section: Introductionmentioning

confidence: 99%

Interaction and influence of a flow field and particleboard particles in an airflow forming machine with a coupled Euler-DPM model

et al. 2021

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“…Additionally, the frames produced by curved elements mostly fail at curvature turning regions [2]. The locations of the chair components prone to failure can be reinforced, or the harmed parts can be rehabilitated, generally, using timber tends of composite materials such as fiber-reinforcing polymers (FRP), carbon fiber-reinforcing polymers (CFRP), [6], or glass fiber-reinforcing polymers (GFRP) [7]. Glass and carbon fibers reinforcing materials are lightweight and widely available.…”

Section: Introductionmentioning

confidence: 99%

Investigating the effects of rehabilitation and the use of curved-integrated members on the behavior of chairs

et al. 2020

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Expanding the service life length of wooden made furniture, and consequently decreasing the demand for raw wood could help the economy of the world society and environmental safety. In this research, an experimental inquiry was conducted to determine the effects of curved members, the frame integrity, chair scheme, and rehabilitation of even the failed chairs on the behavior of chairs. The flexural properties of the curved specimens were firstly determined using the ASTM D143-94 test. Then, three layouts of chairs (A, B, and C) made from poplar wood were examined under the DIN EN-1729-1&2 standard. Finally, the failed chairs were rehabilitated using the sheets of glass fiberreinforcing polymers (GFRP) and re-tested. The results showed that the rehabilitation of the curved samples causes rebounding of their mechanical properties. Besides, the rehabilitated samples are more flexible than primary ones. Furthermore, the results demonstrate that the capability of the proposed normalized modulus of rupture (NMOR) criterion, in contrast to the current modulus of rupture (MOR) one, for predicting the failure modes and regions of the wooden and composite structures. The experiments on the chairs showed that all rehabilitated patterns are more robust than primary schemes. That means, the discarded (or discarding) chairs (due to failure of joints, legs, or, in general, a part of the chairs) return to their service life, and massively reduce the demand for wood, which is strongly favored by environmental aspects. Moreover, rehabilitated layout B (RB), which has two continuous-main-curved members is at least 2.4 times stronger than other rehabilitated patterns, and rehabilitated layout C (RC) having three continuous-main-curved members is about 40% stronger than a rehabilitated custom chair (RA), that illustrates more integrity and strength. Besides that, the strength of RB is 2.22 and 2.04 times that of the corresponding primary chairs, depending on front-to-back and up-to-down loading, respectively. Finally, univariate analyses of variance and least significant difference (LSD) showed the high precision of the results. Consequently, the research provides a facility not only to save original material resources, but also to eliminate furniture waste going in the landfill.

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“…8 However, there is still a lack of relative study and a unified standard for a test method for monofilament compression behaviors. 9…”

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confidence: 99%

“…8 However, there is still a lack of relative study and a unified standard for a test method for monofilament compression behaviors. 9 Chapman 10 adapted a tensile testing apparatus and presented the three-point bending method. However, this method was only applicable to coarse yarn, for which it was difficult to achieve accurate measurement for monofilaments.…”

mentioning

confidence: 99%

Characterization of compression behaviors of Acupoint Catgut-embedding monofilaments for the human body: A test method of monofilaments by the three-point bending model

Zhang

2017

Textile Research Journal

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Acupoint Catgut-embedding therapy (ACET) is considered an advanced method for the treatment of juvenile pseudomyopia. However, the existing test methods of ACE monofilaments cannot meet the desire for accurate measurement and convenient operation. This paper presents a study of the compression behaviors of ACE monofilaments developed for the human body. To investigate a convenient and accurate test method for monofilaments, different materials, including polypropylene (PP), polylactic acid (PLA) and polyglycolide acid (PGA), were designed to a curved rod shape based on the three-point bending model used in this work. Variables, including the number of winding laps, the diameter of the compression platens and the compression rate of specimens, were discussed by the platform compression method. Properties such as radial force, the compression modulus and recovery ratio were also tested and analyzed. The results revealed that the winding lap of 25r was selected as the most suitable number according to the principles of stability and accuracy. The diameter of the compression platen should be larger than the outer diameter of the specimens, due to which the diameter of 5 mm was less than expected in this work. Meanwhile, the average value of the maximum radial force (F) was PP (98.35 cN) > PLA-1 (84.67 cN) > PGA (63.68 cN) > PLA-2 (39.24 cN) > PLA-3 (20.15 cN). The compression rate of 50% should be selected as the optimum parameter. In conclusion, this test method of monofilaments was successfully developed and has a potential application for the characterization of compression behaviors of ACE monofilaments for the human body.

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Experimental Study of the Flexural and Compression Performance of an Innovative Pultruded Glass-Fiber-Reinforced Polymer-Wood Composite Profile

Cited by 9 publications

References 32 publications

Interaction and influence of a flow field and particleboard particles in an airflow forming machine with a coupled Euler-DPM model

Interaction and influence of a flow field and particleboard particles in an airflow forming machine with a coupled Euler-DPM model

Investigating the effects of rehabilitation and the use of curved-integrated members on the behavior of chairs

Characterization of compression behaviors of Acupoint Catgut-embedding monofilaments for the human body: A test method of monofilaments by the three-point bending model

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