Mô Hình Toán Học của Trạng Thái Căng Thẳng - Biến Dạng của các Lớp Keo trong Cấu Trúc Sandwic
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#mô hình toán học #cấu trúc sandwich #lớp keo #căng thẳng #biến dạngTài liệu tham khảo
C. C. Chamis, R. A. Aiello, and P. L. N. Murthy, “Composite sandwich thermostructural behavior: computational simulation,” in: Proc. 27th Structure, Structural Dynamics, and Materials Conf., San Antonio, TX, May 19-21, Pt. 1 (1986), pp. 370–381.
C. C. Chamis, R. A. Aiello, and P. L. N. Murthy, “Fiber composite sandwich thermostructural behavior: computational simulation,” J. Compos. Tech. Res., 10, No. 3, 93–99 (1988).
W. Elspass and M. Flemming, “Analysis of precision sandwich structures under thermal loading,” in: Proc. 17th Congress of the Int. Council Aeronaut Sci., Stockholm, Sweden, Sept. 9-14. Vol. 2 (1990), pp. 1513–1518.
W. S. Burton and A. K. Noor, “Three-dimensional solutions for thermomechanical stresses in sandwich panels and shells,” J. Eng. Mech. ASCE, 120, No. 10, 2044–2071 (1994).
S. Hanagud and H. P. Chen, “A study of the static postbuckling behavior of composite sandwich plates,” in: Proc. Int. Conf. on Rotorcraft Basic Research Triangle Park, NC, Feb. 19-21 (1985)
J-P. Jeusette and G. Laschet, “Pre-and postbuckling finite element analysis of curved composite and sandwich panels,” AIAA J., 28, No. 7, 1233–1239 (1990).
A. K. Noor and W. S. Burton, “Assessment of shear deformation theories for multilayered composite plates,” Appl. Mech. Rev., 42, No. 1, 1–13 (1989).
A. K. Noor and W. S. Burton, “Assessment of computational models for multilayered composite shells,” Appl. Mech. Rev., 43, No. 4, 67–97 (1990).
E. I. Grigolyuk, “Equation of three-layered shells with soft filler,” Izv. Tekn. Nauk, No. 1, 77–84 (1957).
F. J. Plantema, Sandwich Construction: The Bending and Buckling of Sandwich Beam, Plates and Shells, John Wiley, New York (1966).
H. G. Allen, Analysis and Design of Structural Sandwich Panels, Pergamon Press, Oxford (1969).
K. H. Lee, P. B. Xavier, and C. H. Chew. “Static response of unsymmetric sandwich beams using an improved zig-zag model,” Compos. Eng., 3, No. 3, 235–248 (1993).
A. Marshal, Sandwich Construction. Handbook of Composites, Van Nostrand Reinhold Company, Scarborough, CA (1982).
O. T. Thomsen, “Theoretical and experimental investigation of local bending effects in sandwich plates,” Compos. Struct., 30, 85–101 (1995).
O. T. Thomsen, “Ply drop-off effects in CFRP/honeycomb sandwich panels. Experimental results,” Compos. Sci. Technol., 56, 423–437 (1996).
Y. Frostig, “High-order bending of piecewise uniform sandwich beams with a tapered transition zone and a transversely flexible core,” Compos. Struct., 31, 151–162 (1995).
Huang Song-Jeng, V. N. Kobelev, and V. V. Kobelev, “Stress-strain investigation of adhesive layer in sandwich structure of flying vehicle,” in: Proc. 12th Int. Conf. on Composites Materials, Paris, France, 5-9 July, Paper No. 1349 (1999).