Search results

Souto, was also supported by the grant SFRH/BD/80564/2011 from the Portuguese Science and Technology Foundation.
[5] Belhabib, S.; Haddadi, H.; Gaspérini, M.; Vacher, P.; Heterogeneous tensile test on elastoplastic metallic sheets: Comparison between FEM simulations and full-field strain measurements, International Journal of Mechanical Sciences 50:14–21, 2008
[6] Kajberg, J.; Lindkvist, G.; Characterisation of materials subjected to large strains by inverse modelling based on in-plane displacement fields, International Journal of Solids and Structures 41:3439–3459, 2004
[8] Souto, N.; Andrade-Campos, A.; Thuillier, S.; Material parameter identification within an integrated methodology considering anisotropy, hardening and rupture, submitted in Journal of Materials Processing Technology, 2014
V.; A new strategy for the simultaneous identification of constitutive laws parameters of metal sheets using a single test, Computational Materials Science 85:102–120, 2014.

Ferrer: Journal of Materials Processing Technology, vol. 191 (2007) pp. 174-177
Ko: Journal of Achievements in Materials and Manufacturing Engineering, vol. 18 (2006) p. 4-7
Yoshida: Journal of Materials Processing Technology, vol. 210 (2010) pp. 272-278
Phanitwong: Journal of Materials & Design, vol. 32 (2011) pp. 4430-4436
Hu: Journal of Materials Engineering and Performance, (2013) pp. 1-7

Lee, Journal of Engineering Materials and Technology, 123(4) 2001 p. 391-397
Lee, Journal of Materials Processing Technology, 122(1) 2002 p. 6-11
Mattiasson, International Journal of Material Forming, (2010) p. 1-18
Mattiasson, International Journal of Mechanical Sciences, 51(7) (2009) p. 547-563
Enquist, International Journal of Mechanical Sciences, 48(12) (2006) p. 1525-1532

Journal of Manufacturing Process.2002.(4)97~ 108 [5] Z.J.Szabo.
E.DittrichJournal of Materials Processing Technology.1996(60):67~72 [6] T.F.Stanistreet.J.M.Allwood.
Journal of Materials Processing Technology. 1996(60): 67~72 [7] Hiroshi Utsunomiya, Yoshihiro Saito.
Journal of Materials Processing Technology.2006.(177)630~633 [8] Guo Liang-gang, Yang He.
Journal of Materials Processing Technology. 2002:619~625 [10] Hua Lin.

Journal of materials research-pittsburgh-,2000
Mechanical behavior of materials[M].
Mechanics of materials, 2002
Materials Science and Engineering: A, 2005
Wheel normal grinding of hard and brittle materials[J].

Intorduction Recently, herbal blitzkrieg extractor (HBE) has been widely applied in extraction of plant bioactive components from different vegetable materials.
Materials and methods Materials.
International Journal of Food Science and Technology, 43 (2008), p.1988–1992 [3] Palu, A.K., Kim, A.H., West, B.J., Deng, S., Jensen, C.J. & White, L.D.
Journal of Food Engineering, 59(2003), p.379–389 [6] Telez-Luis, S.
Journal of Food Science. 68(2003), p.1454–1458

Loureiro: Fracture toughness of welds - effect of brittle zones and strength mismatch, Journal of Materials Processing Technology 153-154 (2004), p. 537-543
Kim: Determination of microstructural criterion for cryogenic toughness variation in actual HAZs using microstructure-distribution maps, Materials Science and Engineering A351 (2003), p. 183-189
Teodosiu: Three-dimensional numerical simulation of the deep-drawing process using solid finite elements, Journal of Materials Processing Technology 97 (2000), p. 100106
Accepted to Materials Science Forum
Welding Journal, 69(9) (1989): 356s-362s

Materials and Methodology 2.1.
Use of locally available materials 4.
The strength of materials and durability 6.
International Journal of Food Sciences and Nutrition, 4 (2015) 228–233
Journal of Engineering Science and Technology Review, 2 (2009) 12-17

The materials used in this experimental program are PET, PVA and PE reinforcing a cement matrix.
Materials.
In addition, uniaxial tensile tests were performed on the dog-bone shape specimens to examine the effect of fiber combinations on the tensile strain capacity of materials.
Journal of Advanced Concrete technology 2003; 1(3): p.241~52
Materials and Structures 2006; 39: p.547~55

Glass fiber reinforced materials are particularly attractive for transportation industries because of their high strength/mass ratio and their low cost compared to other materials.
The ability of these materials to be designed to suit a particular purpose makes them desirable for many usages [1, 2].
Majumdar and D.Hunston, Continuous Parallel Fiber composite fracture, Encyclopedia of materials: science and technology, p. 1618-1629, (2001) [2] Dharmawan, G.
John, Mixed Mode fracture Toughness Tests of GFRP Composites, International Journal of Composite Structures,75, p. 328–338, (2006) [3] Kim BW, Nairn JA, Observations of fiber fracture and interfacial debonding phenomena using the fragmentation test in single fiber composites, Journal of Composite Materials, 36, pp. 1825–1858, (2002) [4] Arcan M, Hashin Z, Voloshin A.
A method to produce uniform plane stress states with applications to fibre reinforced materials, Experimental Mechanics, 18, pp.141–146, (1978) [5] E.E.Gdoutos, Fracture Mechanics, An Introduction, second ed., Springer, Democritus University of Thrace, Xanthi, Greece, ISBN 1-4020-3153-X, (2005) [6] Choupani N, Experimental and numerical investigation of the mixed-mode delamination in Arcan laminated specimens, Journal of Material Science and Engineering A, 478, p. 229–242, (2008) [7] Shin CF,Moran B,Nakamura T, Energy release rate along a three-dimensional crack front in a thermally stressed body, International Journal of Fracture, 30, p. 79-102, (1986) [8] Martin RH, Delamination characterization of woven glass/polyester composites, Journal of Composites Technology and Research, 19, p. 20–28, (1997) [9] Standard Test Method for Mode I Interlaminar Fracture Toughness of Unidirectional Fiber-Reinforced Polymer Matrix Composites.