TY - JOUR ID - 49679 TI - Flexural Analysis of Deep Aluminum Beam JO - Journal of Soft Computing in Civil Engineering JA - SCCE LA - en SN - AU - Dahake, Ajay AU - Kapdis, Pravin AU - Kalwane, Uttam AU - Salunkhe, Umesh AD - Associate Professor and Head, Civil Engineering Department, Maharashtra Institute of Technology, Aurangabad (M. S.), India AD - Civil Engineering Department, Shreeyash College of Engineering and Technology, Aurangabad, (M. S.), India Y1 - 2018 PY - 2018 VL - 2 IS - 1 SP - 71 EP - 84 KW - Deep beam KW - Deformations KW - Deflections KW - Aluminum DO - 10.22115/scce.2018.49679 N2 - Many parts of spacecraft, airplanes are made up of aluminum, due to its property of less density, which is deep in sections. For the analysis of deep parts of any structure, a shear deformation theory using the trigonometric sinusoidal function in displacement field in terms of thickness coordinate is developed to obtain the shear deformation effects. The shear stresses are obtained from the use of constitutive equations with outstanding accuracy, satisfying the zero shear stress at the both, top and bottom of beams. Also, the theory not requires the shear correction factor. By using the principle of virtual work, the governing differential equations and boundary conditions are obtained. A deep aluminum beam is assumed subjected to a cosine load for the analytical study to show the accuracy of the theory. The results are compared with other theories. UR - https://www.jsoftcivil.com/article_49679.html L1 - https://www.jsoftcivil.com/article_49679_072938d3c0498729e7eac06f472cc9eb.pdf ER -