PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Elastic-plastic stress analysis of symmetric reinforced thermoplastic matrix laminated beams under a bending moment

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this study, an elastic-plastic stress analysis is carried out on symmetric steel fiber reinforced high density polyethylene thermoplastic matrix laminated beams under a bending moment. The Bernoulli-Euler theory is used. The orientation angles are chosen as (90o/0o)2, (30o/-30o)2, (45o/-45o)2 and (60o/-60o)2. The composite material is assumed to be linearly hardening. The stress component 'sigma'x is to be maximum at the upper and lower surfaces in the elastic-plastic solution. The residual stress component 'sigma'x is found to be highest at the upper and lower surfaces. However, when the plastic region is further expanded the residual stress component 'sigma'x is found to be the highest at the elastic and plastic boundaries. The plastic flow is to be maximum at the upper and lower surfaces for the (30o/-30o)2 orientation. The transverse displacement is obtained to be highest at the free end for the (90o/0o)2 orientation.
Rocznik
Strony
559--575
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
  • Department of Mechanical Engineering, Pamukkale University Çamlik, Denizli, TURKEY
autor
  • Department of Mechanical Engineering, Dokuz Eylül University 35100, Bornova, Izmir, TURKEY
autor
  • Department of Mechanical Engineering, Pamukkale University Çamlik, Denizli, TURKEY
autor
  • Department of Mechanical Engineering, Dokuz Eylül University 35100, Bornova, Izmir, TURKEY
Bibliografia
  • [1] Akay M. and Ózden S. (1994): Measurement of residual stresses injection moulded thermoplastics. - Polymer Testing, vol.l3, pp.323-354.
  • [2] Bhate S.R., Nayak U.N. and Patki A.V. (1995): Deformation of composite beam using refined theory. - Computers and Structures, vol.54, pp.541-546.
  • [3] Bui V.Q., Marechal E. and Dang H.N. (1999): Imperfect interlaminar interfaces in laminated composites: bending, buckling and transient responses. - Composites Science and Technology, vol.59, pp.2269-2277.
  • [4] Cantwell WJ. (1996): The influence of stamping temperaturę on the properties of a glass mat thermoplastic composite. - Journal of Composite Materials, vol.30, No. 11, pp. 1266-1281.
  • [5] Chakrabarty J. (1987): Theory of Plasticity. - Singapore: McGraw-Hill.
  • [6] Chattopadhyay A. and Guo R. (1995): Structural design sensitivity analysis for composites undergoing elastoplastic deformation. - Mathematical and Computational Modelling, vol.22, No.2, pp.83-105.
  • [7] Dadras P. (2001): Piane strain elastic-plastic bending of a strain-hardening curved beam. - International Journal of Mechanical Sciences, vol.43, pp.39-56.
  • [8] Fares M.E. (2000): Generalized non-linear thermoelasticity for composite laminated structures using a mixed variational approach. - International Journal of Non-Linear Mechanics, vol.35, pp.439-446.
  • [9] Gibson R.F. (1994): Principles of Composite Materiał Mechanics. - Singapore: McGraw-Hill.
  • [10] Jeronomidis G. and Parkyn A.T. (1988): Residual stresses in carbon fibre-thermoplastic matrix laminates. - Journal of Composite Materials, vol.22, pp.401-415.
  • [11] Jones R.M. (1999): Mechanics of Composite Materials. - Philadelphia: Taylor and Francis, 2nd Edition.
  • [12] Karakuzu R. and Ózcan R. (1997): Exact solution of elasto-plastic stresses in a metal-matrix composite beam of arbitrary orientation subjected to transverse loads. - Composite Science and Technology, vol.56, pp. 1383-1389.
  • [13] Khdeir A. A. and Reddy J.N. (1997): An exact solution for the bending of thin and thick cross-ply laminated beams. - Composite Structures, vol.37, pp. 195-203.
  • [14] Kojik M., Zivkovic M. and Kojik A. (1995): Elastic-plastic analysis of orthotropic multilayered beam. - Computers and Structures, vol.57, pp.205-211.
  • [15] Liu Z., Trogdon S.A. and Yong J. (1999): Modeling and analysis of a laminated beam. - Mathematical and Computer Modelling, vol.30, pp. 149-167.
  • [16] Marissen R., Brouver H.R. and Linsen J. (1995): Notched strength of thermoplastic woven fabric composites. - Journal of Composite Materials, vol.63, No.3, pp.551-558.
  • [17] Miyazaki M. and Hamao T. (1994): Solid particular erosion of thermoplastic resins reinforced by short fibers. - Journal of Composite Materials, vol.28, No.9, pp.871-883.
  • [18] Owen D.R.J. and Hinton E. (1980): Finite Elements in Plasticity. - Swansea: Pineridge Press.
  • [19] Pomies F. and Carlsson L.A. (1994): Analysis of modulus and strength of dry and wet thermoset and thermoplastic composites loaded in transverse tension. - Journal of Composite Materials, vol.28, pp.22-35.
  • [20] Sayman O., Aksoy S. and Aykul H. (2000): An elastic-plastic solution for a thermoplastic composite cantilever beam loading by bending moment. - Composites Science and Technology, vol.60, pp.2739-2745.
  • [21] Sayman O. and Callioglu H. (2000): An elastic-plastic stress analysis of thermoplastic composite beams loaded by bending moments. - Composite Structures, vol.50, pp. 199-205.
  • [22] Sayman O., Uyaner M. and Daghan B. (2002): Elastic-plastic stress analysis of composite beams loaded by bending moment. - Journal of Reinforced Plastics and Composites, vol.21, No.l, pp.41-54.
  • [23] Sayman O. and Zor M. (2000): Elastic-plastic stress analysis and residual stress in a woven Steel fiber reinforced thermoplastic composite cantilever beam loaded uniformly. - Journal of Reinforced Plastics and Composites, vol.19, No.13, pp.1078-1092.
  • [24] Shi F.F. (1996): The mechanical properties and deformation of shear induced polymer liąuid crystalline fibers in a engineering thermoplastic. - Journal of Composite Materials, vol.30, No.14, pp.1613-1626.
  • [25] Tavman I.H. (1996): Thermal and mechanical properties of aluminum powder filled high-density polyethylene composites. - Journal of Applied Polymer Science, vol.62, pp.2161-2167.
  • [26] Wang C.M., Chen C.C. and Kitipornchai S. (1998): Shear deformable bending Solutions for nonuniform beams and plates with elastic end restraints from classical Solutions. - Archive of Applied Mechanics, vol.68, pp.323-333.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ2-0003-0028
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.