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Frontiers of Structural and Civil Engineering 2023, Volume 17, Issue 2, Pages 271-283 doi: 10.1007/s11709-022-0896-z
Keywords: textile reinforced mortar bending tests acid and alkaline environment concrete overlay
Frontiers of Structural and Civil Engineering 2023, Volume 17, Issue 4, Pages 649-668 doi: 10.1007/s11709-023-0919-4
Keywords: fiber reinforced polymer textile reinforced mortar finite element analysis concrete damage plasticity
Environmental & Light and Textile Industries Engineering Front 2017
Environmental & Light and Textile Industries Engineering Project Team
Engineering Fronts 2017, Volume 1, Issue 1, Pages 152-178
Adsorption in combination with ozonation for the treatment of textile waste water: a critical review
Shraddha Khamparia,Dipika Kaur Jaspal
Frontiers of Environmental Science & Engineering 2017, Volume 11, Issue 1, doi: 10.1007/s11783-017-0899-5
Keywords: Adsorption Ozonation Catalytic Ozonation Textile dyes Mineralization
Environmental & Light Textile Engineering Front 2018
Environmental & Light Textile Engineering Project Team
Engineering Fronts 2018, Volume 2, Issue 1, Pages 140-163
Environmental and Light Textile Engineering Front 2023
Environmental and Light Textile Engineering Project Team
Engineering Fronts 2023, Volume 7, Issue 1, Pages 156-180
Mehvish Mumtaz, Yixiang Bao, Wenchao Li, Lingxiao Kong, Jun Huang, Gang Yu
Frontiers of Environmental Science & Engineering 2019, Volume 13, Issue 5, doi: 10.1007/s11783-019-1145-0
Keywords: Textile finishing agents Kendrick mass defect Total oxidizable precursor assay
The Frontage of Textile Science and Technology in 21st Century
Yao Mu
Strategic Study of CAE 2003, Volume 5, Issue 4, Pages 47-49
Textile science and technology made very important grogress in the 20th century.Faced to the 21st century, textile science and technology will be developing in four aspects: (1) researchingdeveloping new products with better performances; (2) introducing high and new-techniques, modifying the textileapparatuses for spinning, weaving, dyeing and finishing; (4) changing into the new management mode for textile
Keywords: textile science and technology smart wears industrial textiles textile fibre spinning weving dyeing
Environmental and Light Textile Engineering Front 2020
Environmental and Light Textile Engineering Project Team
Engineering Fronts 2020, Volume 4, Issue 1, Pages 126-148
Environmental and Light Textile Engineering Front 2022
Environmental and Light Textile Engineering Project Team
Engineering Fronts 2022, Volume 6, Issue 1, Pages 150-173
Environmental and Light Textile Engineering Front 2019
Environmental and Light Textile Engineering Project Team
Engineering Fronts 2019, Volume 3, Issue 1, Pages 127-149
Environmental and Light Textile Engineering Front 2021
Environmental and Light Textile Engineering Project Team
Engineering Fronts 2021, Volume 5, Issue 1, Pages 132-153
Robert S. Pierce, Brian G. Falzon
Engineering 2017, Volume 3, Issue 5, Pages 596-607 doi: 10.1016/J.ENG.2017.04.006
Increasing demand for weight reduction and greater fuel efficiency continues to spur the use of composite materials in commercial aircraft structures. Subsequently, as composite aerostructures become larger and more complex, traditional autoclave manufacturing methods are becoming prohibitively expensive. This has prompted renewed interest in out-of-autoclave processing techniques in which resins are introduced into a reinforcing preform. However, the success of these resin infusion methods is highly dependent upon operator skill and experience, particularly in the development of new manufacturing strategies for complex parts. Process modeling, as a predictive computational tool, aims to address the issues of reliability and waste that result from traditional trial-and-error approaches. Basic modeling attempts, many of which are still used in industry, generally focus on simulating fluid flow through an isotropic porous reinforcement material. However, recent efforts are beginning to account for the multiscale and multidisciplinary complexity of woven materials, in simulations that can provide greater fidelity. In particular, new multi-physics process models are able to better predict the infusion behavior through textiles by considering the effect of fabric deformation on permeability and porosity properties within the reinforcing material. In addition to reviewing previous research related to process modeling and the current state of the art, this paper highlights the recent validation of a multi-physics process model against the experimental infusion of a complex double dome component. By accounting for deformation-dependent flow behavior, the multi-physics process model was able to predict realistic flow behavior, demonstrating considerable improvement over basic isotropic permeability models.
Keywords: Composite materials Textile reinforcement Draping Infusion Numerical modeling
Frontiers of Structural and Civil Engineering doi: 10.1007/s11709-023-0955-0
Keywords: textile-reinforced fine concrete prefabricated shell confined concrete column confinement properties
Industrial Textile Materials in China: Development Status, Demand and Countermeasure
Hou Xi, Li Shujia, Ye He, Yuan Ruwang, Yang Jiancheng, Meng Zhuo, Zhu Xianmin, Chen Ge
Strategic Study of CAE 2022, Volume 24, Issue 2, Pages 123-131 doi: 10.15302/J-SSCAE-2022.02.019
Industrial textile materials are a new type of functional or structuralThe vigorous development of industrial textile materials can significantly promote the manufacturingindustry of China, transform and upgrade China’s textile industry into an emerging resource industry, and contribute to the international and domestic dual circulation of China’s textile industrydevelopment, production, and application of the industry, establish a standards system for industrial textile
Keywords: industrial textile material new basic material textile industry manufacturing technology
Title Author Date Type Operation
Experimental investigation on concrete overlaid with textile reinforced mortar: Influences of mix, temperature
Journal Article
Numerical modelling of reinforced concrete flexural members strengthened using textile reinforced mortars
Journal Article
Environmental & Light and Textile Industries Engineering Front 2017
Environmental & Light and Textile Industries Engineering Project Team
Journal Article
Adsorption in combination with ozonation for the treatment of textile waste water: a critical review
Shraddha Khamparia,Dipika Kaur Jaspal
Journal Article
Environmental & Light Textile Engineering Front 2018
Environmental & Light Textile Engineering Project Team
Journal Article
Environmental and Light Textile Engineering Front 2023
Environmental and Light Textile Engineering Project Team
Journal Article
Screening of textile finishing agents available on the Chinese market: An important source of per- and
Mehvish Mumtaz, Yixiang Bao, Wenchao Li, Lingxiao Kong, Jun Huang, Gang Yu
Journal Article
Environmental and Light Textile Engineering Front 2020
Environmental and Light Textile Engineering Project Team
Journal Article
Environmental and Light Textile Engineering Front 2022
Environmental and Light Textile Engineering Project Team
Journal Article
Environmental and Light Textile Engineering Front 2019
Environmental and Light Textile Engineering Project Team
Journal Article
Environmental and Light Textile Engineering Front 2021
Environmental and Light Textile Engineering Project Team
Journal Article
Simulating Resin Infusion through Textile Reinforcement Materials for the Manufacture of Complex Composite
Robert S. Pierce, Brian G. Falzon
Journal Article
Confinement properties of circular concrete columns wrapped with prefabricated textile-reinforced fine
Journal Article