TY - GEN
T1 - Study on tear propagation of a fabric laminate in biaxial stress
AU - Liu, Dongxu
AU - Jia, Zhao
AU - Hu, Jie
AU - Guo, Pengfei
AU - Ma, Yunpeng
PY - 2011
Y1 - 2011
N2 - Tear propagation is the typical fracture mode of fabric laminates, which is affected by stress and damage size. With the use of high strength fabrics, high performance laminates emerge continually. In this paper, tear propagation of a high strength fabric laminate coating polyurethane used in high altitude lighter-than-air vehicle (LTA) is studied. Cross-shaped specimens, central size 5cm×5cm, are scissored out to test tear propagation strength in biaxial stress by a tailor-made testing machine. The damnification is a cut slit in weft direction, warp fibers cut off. The cut slit is in the middle of specimens, including 0cm (scatheless specimens), 1cm, 2cm and 3cm in length. Tear propagation is observed and the strength is noted simultaneously to gain the mechanical properties of the fabric laminate. The tensile strength of the laminate is 424N/cm, and it descends to 263N/cm in cut slit length of 1cm. Subsequently, two methods based on stress field and linear elasticity fracture mechanics are introduced to analyze the tear strength, which is validated well by test results, and the coefficients of empirical formulae are obtained. It is useful to analyze the limit length and the limit stress for the fabric laminate with initial damage.
AB - Tear propagation is the typical fracture mode of fabric laminates, which is affected by stress and damage size. With the use of high strength fabrics, high performance laminates emerge continually. In this paper, tear propagation of a high strength fabric laminate coating polyurethane used in high altitude lighter-than-air vehicle (LTA) is studied. Cross-shaped specimens, central size 5cm×5cm, are scissored out to test tear propagation strength in biaxial stress by a tailor-made testing machine. The damnification is a cut slit in weft direction, warp fibers cut off. The cut slit is in the middle of specimens, including 0cm (scatheless specimens), 1cm, 2cm and 3cm in length. Tear propagation is observed and the strength is noted simultaneously to gain the mechanical properties of the fabric laminate. The tensile strength of the laminate is 424N/cm, and it descends to 263N/cm in cut slit length of 1cm. Subsequently, two methods based on stress field and linear elasticity fracture mechanics are introduced to analyze the tear strength, which is validated well by test results, and the coefficients of empirical formulae are obtained. It is useful to analyze the limit length and the limit stress for the fabric laminate with initial damage.
KW - Biaxial stress
KW - Fabric laminate
KW - Propagation
KW - Tear
UR - https://www.scopus.com/pages/publications/79954476679
U2 - 10.4028/www.scientific.net/AMR.217-218.147
DO - 10.4028/www.scientific.net/AMR.217-218.147
M3 - 会议稿件
AN - SCOPUS:79954476679
SN - 9783037850756
T3 - Advanced Materials Research
SP - 147
EP - 151
BT - High Performance Structures and Materials Engineering
T2 - 2011 1st International Conference on High Performance Structures and Materials Engineering, ICHPSM 2011
Y2 - 5 May 2011 through 6 May 2011
ER -