Analytical stress analysis of the furan epoxy composite coatings subjected to tensile test

被引:4
作者
Dolgov, Nikolay [1 ,2 ,4 ]
Stukhlyak, Petro [3 ]
Totosko, Oleg [3 ]
Melnychenko, Olexandr [2 ]
Stukhlyak, Danylo [3 ]
Chykhira, Ihor [3 ]
机构
[1] Natl Acad Sci Ukraine, GS Pisarenko Inst Problems Strength, Lab Surface Hardening Struct Elements, Kiev, Ukraine
[2] Natl Transport Univ, Dept Mfg Repair & Mat Engn, Kiev, Ukraine
[3] Ternopil Ivan Puluj Natl Tech Univ, Dept Comp Integrated Technol, Ternopol, Ukraine
[4] Natl Acad Sci Ukraine, GS Pisarenko Inst Problems Strength, UA-01014 Kiev, Ukraine
关键词
Adhesion; epoxy composite; fracture stresses; shear stresses; shrinkage; stretching; NANOCOMPOSITE COATINGS; MECHANICAL-PROPERTIES; ZINC-OXIDE; ADHESION STRENGTH; ANTICORROSION; NANOPARTICLES; PERFORMANCE; FRACTURE;
D O I
10.1080/15376494.2023.2239811
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The presence of reliable techniques for predicting the stress state in composite materials is one of the most important requirements in the design of composite components and structures. An analytical model has been developed to evaluate the shear stresses at the substrate-coating interface in tensile testing of a flat specimen. The developed model has been verified by numerical simulation. The strength and mechanisms of the fracture of furan epoxy composite coatings with polyvinyl chloride and zinc oxide fillers with various concentrations were studied. The adhesion strength of furan epoxy composite coatings with metal substrate was determined by the pull-off test of cylindrical specimens and the tensile test of flat-coated specimens. The correlation between the measured values of fracture stresses for two types of tests of composite coatings was determined. It is concluded that for qualitative comparison of fracture stress in composite coatings it is possible to neglect stress concentration in the specimens. The analyzed methods of stress evaluation have the same trends in the change of the measured values for different composite coatings. However, considering the stress concentration in the specimens provides more accurate results in determining the strength characteristics.
引用
收藏
页码:6874 / 6884
页数:11
相关论文
共 78 条
[1]   Influence of adherend properties on the strength of adhesively bonded joints [J].
Banea, Mariana D. .
MRS BULLETIN, 2019, 44 (08) :625-629
[2]   Dynamics of destruction of epoxy composites filled with ultra-dispersed diamond under impact conditions [J].
Buketov, A., V ;
Sapronov, O. O. ;
Brailo, M., V ;
Maruschak, P. O. ;
Yakushchenko, S., V ;
Panin, S., V ;
Nigalatiy, V. D. .
MECHANICS OF ADVANCED MATERIALS AND STRUCTURES, 2020, 27 (09) :725-733
[3]   Adhesive Pull and Shear Strength of Epoxy Nanocomposite Coatings Filled with Ultradispersed Diamond [J].
Buketov, A. V. ;
Dolgov, N. A. ;
Sapronov, A. A. ;
Nigalatii, V. D. .
STRENGTH OF MATERIALS, 2018, 50 (03) :425-431
[4]   Copper to resin adhesion characterization for power electronics application: Fracture toughness and cohesive zone analysis [J].
Calabretta, Michele ;
Sitta, Alessandro ;
Oliveri, Salvatore Massimo ;
Sequenzia, Gaetano .
ENGINEERING FRACTURE MECHANICS, 2022, 266
[5]  
Campilho R., 2017, STRENGTH PREDICTION, P422, DOI [10.1201/9781315370835/strength-prediction-adhesively-bonded-joints-raul-campilho, DOI 10.1201/9781315370835/STRENGTH-PREDICTION-ADHESIVELY-BONDED-JOINTS-RAUL-CAMPILHO]
[6]   Effect of annealing on microstructure, shear and tensile strength of diffusion bonded FeCrAl/Zy4 clad plate [J].
Chen, Jing ;
Li, Gang ;
Lin, Gaoyong ;
Du, Peinan ;
Tang, Qi ;
Liu, Huiqun ;
Zhang, Ruiqian .
JOURNAL OF NUCLEAR MATERIALS, 2020, 535
[7]   THE ELASTICITY AND STRENGTH OF PAPER AND OTHER FIBROUS MATERIALS [J].
COX, HL .
BRITISH JOURNAL OF APPLIED PHYSICS, 1952, 3 (MAR) :72-79
[8]   Delamination analysis using cohesive zone model: A discussion on traction-separation law and mixed-mode criteria [J].
de Oliveira, Lucas Amaro ;
Donadon, Mauricio Vicente .
ENGINEERING FRACTURE MECHANICS, 2020, 228
[9]   USE OF THE METHOD OF MATHEMATICAL EXPERIMENT PLANNING FOR EVALUATING ADHESIVE STRENGTH OF PROTECTIVE COATINGS MODIFIED BY ENERGY FIELDS [J].
Dolgov, M. A. ;
Zubrets'ka, N. A. ;
Buketov, A. V. ;
Stukhlyak, P. D. .
STRENGTH OF MATERIALS, 2012, 44 (01) :81-86
[10]   Stress singularity in a substrate-coating system [J].
Dolgov N.A. ;
Soroka E.B. .
Strength of Materials, 2004, 36 (6) :636-642