Experimental study on the mechanical properties of the reinforced transparent building membrane material STFE

Experimental study on the mechanical properties of the reinforced transparent building membrane material STFE

•The experimental method of new material is an improved one from coated fabrics.•The new material has enough strength for long-span tensioned membrane structures.•The new material has superior mechanical properties compared with polymers.•Proposed mechanical models can be easily used in numerical si...

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Published in:Construction & building materials Vol. 409; p. 133849
Main Authors: Yuan, Ye, Zhang, Qilin, Luo, Xiaoqun, Gu, Ruijie
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-12-2023
Subjects:
Constitutive model
Creeping test
Mechanical experiment
Mechanical properties
Picture frame shear test
Uniaxial and biaxial test
Mechanical properties
Picture frame shear test
Creeping test
Constitutive model
Uniaxial and biaxial test
Mechanical experiment
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Abstract •The experimental method of new material is an improved one from coated fabrics.•The new material has enough strength for long-span tensioned membrane structures.•The new material has superior mechanical properties compared with polymers.•Proposed mechanical models can be easily used in numerical simulations. STFE is a new type of reinforced polymer building membrane material that combines excellent mechanical properties and transparency by using high-strength fibre mesh, which eliminates the limitations of poor transparency in coated fabric membranes and low strength in polymer membranes. In this study, in order to investigate its strength indicators and mechanical properties, material mechanical tests such as uniaxial, biaxial, and picture frame tests were conducted, obtaining the basic mechanical parameters of the material, including warp and weft direction tensile strength, tear strength, welding seam strength, elastic modulus and Poisson's ratio, shear modulus, and creep elongation rate, among others. Additionally, linear and nonlinear stress–strain mechanical models for uniaxial and biaxial loading were proposed for this material, as well as time-dependent creep and stress relaxation models. These mechanical models were validated and found suitable for numerical simulations of the material. The research results lay the preliminary foundation for the application of this material in large-span tensile transparent membrane structures.
AbstractList •The experimental method of new material is an improved one from coated fabrics.•The new material has enough strength for long-span tensioned membrane structures.•The new material has superior mechanical properties compared with polymers.•Proposed mechanical models can be easily used in numerical simulations. STFE is a new type of reinforced polymer building membrane material that combines excellent mechanical properties and transparency by using high-strength fibre mesh, which eliminates the limitations of poor transparency in coated fabric membranes and low strength in polymer membranes. In this study, in order to investigate its strength indicators and mechanical properties, material mechanical tests such as uniaxial, biaxial, and picture frame tests were conducted, obtaining the basic mechanical parameters of the material, including warp and weft direction tensile strength, tear strength, welding seam strength, elastic modulus and Poisson's ratio, shear modulus, and creep elongation rate, among others. Additionally, linear and nonlinear stress–strain mechanical models for uniaxial and biaxial loading were proposed for this material, as well as time-dependent creep and stress relaxation models. These mechanical models were validated and found suitable for numerical simulations of the material. The research results lay the preliminary foundation for the application of this material in large-span tensile transparent membrane structures.
ArticleNumber 133849
Author Yuan, Ye
Zhang, Qilin
Gu, Ruijie
Luo, Xiaoqun
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Keywords Mechanical properties
Picture frame shear test
Creeping test
Constitutive model
Uniaxial and biaxial test
Mechanical experiment
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Snippet •The experimental method of new material is an improved one from coated fabrics.•The new material has enough strength for long-span tensioned membrane...
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StartPage 133849
SubjectTerms Constitutive model
Creeping test
Mechanical experiment
Mechanical properties
Picture frame shear test
Uniaxial and biaxial test
Title Experimental study on the mechanical properties of the reinforced transparent building membrane material STFE
URI https://dx.doi.org/10.1016/j.conbuildmat.2023.133849
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