Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality

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Izvoz citacije: ABNT
BOURKAS, George ;SIDERIDIS, Emilios ;YOUNIS, Christos ;PRASSIANAKIS, Ioannis N.;KITOPOULOS, Victor .
Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality. 
Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 56, n.10, p. 625-636, october 2017. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/sl/article/strength-and-fracture-strain-of-resinfiller-systems-using-two-models-1-of-perfect-and-2-of-low-adhesion-quality/>. Date accessed: 19 nov. 2024. 
doi:http://dx.doi.org/.
Bourkas, G., Sideridis, E., Younis, C., Prassianakis, I., & Kitopoulos, V.
(2010).
Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality.
Strojniški vestnik - Journal of Mechanical Engineering, 56(10), 625-636.
doi:http://dx.doi.org/
@article{.,
	author = {George  Bourkas and Emilios  Sideridis and Christos  Younis and Ioannis N. Prassianakis and Victor  Kitopoulos},
	title = {Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {56},
	number = {10},
	year = {2010},
	keywords = {resin/filler systems; microstructure; fracture strain; perfect adhesion quality; low adhesion quality; },
	abstract = {The tensile strength and the fracture strain of particulate composites have been evaluated for the case that adhesion exists between the matrix and filler. Two models, each of three components on the basis of cube-within-cube formation, have been used as representative volume elements. By comparing the derived theoretical results of the strength with experimental data for treated and untreated particles in resin/filler systems, the first model can be characterised as corresponding to perfect adhesion quality between the matrix and filler, while the second one to low adhesion quality. The strength predicted by the first model is close to that of treated particles corresponding to high strength. This model corresponds to an upper bound of the strength in cube-within-cube models. The strength predicted by the second model is close to that of untreated particles corresponding to low strength, but this model does not correspond to a lower bound of strength. The systems used for comparison were resin/glass, resin/iron and resin/SiC particulate composites. For the case that adhesion exists between the matrix and filler, the strengths and fracture strains predicted by the present models are in agreement to those provided by an existing evaluation method in the literature.},
	issn = {0039-2480},	pages = {625-636},	doi = {},
	url = {https://www.sv-jme.eu/sl/article/strength-and-fracture-strain-of-resinfiller-systems-using-two-models-1-of-perfect-and-2-of-low-adhesion-quality/}
}
Bourkas, G.,Sideridis, E.,Younis, C.,Prassianakis, I.,Kitopoulos, V.
2010 October 56. Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 56:10
%A Bourkas, George 
%A Sideridis, Emilios 
%A Younis, Christos 
%A Prassianakis, Ioannis N.
%A Kitopoulos, Victor 
%D 2010
%T Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality
%B 2010
%9 resin/filler systems; microstructure; fracture strain; perfect adhesion quality; low adhesion quality; 
%! Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality
%K resin/filler systems; microstructure; fracture strain; perfect adhesion quality; low adhesion quality; 
%X The tensile strength and the fracture strain of particulate composites have been evaluated for the case that adhesion exists between the matrix and filler. Two models, each of three components on the basis of cube-within-cube formation, have been used as representative volume elements. By comparing the derived theoretical results of the strength with experimental data for treated and untreated particles in resin/filler systems, the first model can be characterised as corresponding to perfect adhesion quality between the matrix and filler, while the second one to low adhesion quality. The strength predicted by the first model is close to that of treated particles corresponding to high strength. This model corresponds to an upper bound of the strength in cube-within-cube models. The strength predicted by the second model is close to that of untreated particles corresponding to low strength, but this model does not correspond to a lower bound of strength. The systems used for comparison were resin/glass, resin/iron and resin/SiC particulate composites. For the case that adhesion exists between the matrix and filler, the strengths and fracture strains predicted by the present models are in agreement to those provided by an existing evaluation method in the literature.
%U https://www.sv-jme.eu/sl/article/strength-and-fracture-strain-of-resinfiller-systems-using-two-models-1-of-perfect-and-2-of-low-adhesion-quality/
%0 Journal Article
%R 
%& 625
%P 12
%J Strojniški vestnik - Journal of Mechanical Engineering
%V 56
%N 10
%@ 0039-2480
%8 2017-10-24
%7 2017-10-24
Bourkas, George, Emilios  Sideridis, Christos  Younis, Ioannis N. Prassianakis, & Victor  Kitopoulos.
"Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality." Strojniški vestnik - Journal of Mechanical Engineering [Online], 56.10 (2010): 625-636. Web.  19 Nov. 2024
TY  - JOUR
AU  - Bourkas, George 
AU  - Sideridis, Emilios 
AU  - Younis, Christos 
AU  - Prassianakis, Ioannis N.
AU  - Kitopoulos, Victor 
PY  - 2010
TI  - Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality
JF  - Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - resin/filler systems; microstructure; fracture strain; perfect adhesion quality; low adhesion quality; 
N2  - The tensile strength and the fracture strain of particulate composites have been evaluated for the case that adhesion exists between the matrix and filler. Two models, each of three components on the basis of cube-within-cube formation, have been used as representative volume elements. By comparing the derived theoretical results of the strength with experimental data for treated and untreated particles in resin/filler systems, the first model can be characterised as corresponding to perfect adhesion quality between the matrix and filler, while the second one to low adhesion quality. The strength predicted by the first model is close to that of treated particles corresponding to high strength. This model corresponds to an upper bound of the strength in cube-within-cube models. The strength predicted by the second model is close to that of untreated particles corresponding to low strength, but this model does not correspond to a lower bound of strength. The systems used for comparison were resin/glass, resin/iron and resin/SiC particulate composites. For the case that adhesion exists between the matrix and filler, the strengths and fracture strains predicted by the present models are in agreement to those provided by an existing evaluation method in the literature.
UR  - https://www.sv-jme.eu/sl/article/strength-and-fracture-strain-of-resinfiller-systems-using-two-models-1-of-perfect-and-2-of-low-adhesion-quality/
@article{{}{.},
	author = {Bourkas, G., Sideridis, E., Younis, C., Prassianakis, I., Kitopoulos, V.},
	title = {Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {56},
	number = {10},
	year = {2010},
	doi = {},
	url = {https://www.sv-jme.eu/sl/article/strength-and-fracture-strain-of-resinfiller-systems-using-two-models-1-of-perfect-and-2-of-low-adhesion-quality/}
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TY  - JOUR
AU  - Bourkas, George 
AU  - Sideridis, Emilios 
AU  - Younis, Christos 
AU  - Prassianakis, Ioannis N.
AU  - Kitopoulos, Victor 
PY  - 2017/10/24
TI  - Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality
JF  - Strojniški vestnik - Journal of Mechanical Engineering; Vol 56, No 10 (2010): Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - resin/filler systems, microstructure, fracture strain, perfect adhesion quality, low adhesion quality, 
N2  - The tensile strength and the fracture strain of particulate composites have been evaluated for the case that adhesion exists between the matrix and filler. Two models, each of three components on the basis of cube-within-cube formation, have been used as representative volume elements. By comparing the derived theoretical results of the strength with experimental data for treated and untreated particles in resin/filler systems, the first model can be characterised as corresponding to perfect adhesion quality between the matrix and filler, while the second one to low adhesion quality. The strength predicted by the first model is close to that of treated particles corresponding to high strength. This model corresponds to an upper bound of the strength in cube-within-cube models. The strength predicted by the second model is close to that of untreated particles corresponding to low strength, but this model does not correspond to a lower bound of strength. The systems used for comparison were resin/glass, resin/iron and resin/SiC particulate composites. For the case that adhesion exists between the matrix and filler, the strengths and fracture strains predicted by the present models are in agreement to those provided by an existing evaluation method in the literature.
UR  - https://www.sv-jme.eu/sl/article/strength-and-fracture-strain-of-resinfiller-systems-using-two-models-1-of-perfect-and-2-of-low-adhesion-quality/
Bourkas, George, Sideridis, Emilios, Younis, Christos, Prassianakis, Ioannis, AND Kitopoulos, Victor.
"Strength and Fracture Strain of Resin/filler Systems Using Two Models (1) of Perfect and (2) of Low Adhesion Quality" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 56 Number 10 (24 October 2017)

Avtorji

Inštitucije

  • Faculty of Applied Mathematical and Physical Sciences, Department of Mechanics, Laboratory of Testing and Materials, National Technical University of Athens – Zografou Campus, Greece
  • Faculty of Applied Mathematical and Physical Sciences, Department of Mechanics, Laboratory of Testing and Materials, National Technical University of Athens – Zografou Campus, Greece
  • Faculty of Applied Mathematical and Physical Sciences, Department of Mechanics, Laboratory of Testing and Materials, National Technical University of Athens – Zografou Campus, Greece
  • Faculty of Applied Mathematical and Physical Sciences, Department of Mechanics, Laboratory of Testing and Materials, National Technical University of Athens – Zografou Campus, Greece
  • Faculty of Applied Mathematical and Physical Sciences, Department of Mechanics, Laboratory of Testing and Materials, National Technical University of Athens – Zografou Campus, Greece

Informacije o papirju

Strojniški vestnik - Journal of Mechanical Engineering 56(2010)10, 625-636
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.

The tensile strength and the fracture strain of particulate composites have been evaluated for the case that adhesion exists between the matrix and filler. Two models, each of three components on the basis of cube-within-cube formation, have been used as representative volume elements. By comparing the derived theoretical results of the strength with experimental data for treated and untreated particles in resin/filler systems, the first model can be characterised as corresponding to perfect adhesion quality between the matrix and filler, while the second one to low adhesion quality. The strength predicted by the first model is close to that of treated particles corresponding to high strength. This model corresponds to an upper bound of the strength in cube-within-cube models. The strength predicted by the second model is close to that of untreated particles corresponding to low strength, but this model does not correspond to a lower bound of strength. The systems used for comparison were resin/glass, resin/iron and resin/SiC particulate composites. For the case that adhesion exists between the matrix and filler, the strengths and fracture strains predicted by the present models are in agreement to those provided by an existing evaluation method in the literature.

resin/filler systems; microstructure; fracture strain; perfect adhesion quality; low adhesion quality;