Overview

Test Case

Cubes 1 to 12 have edge length of 10 m and structural mass of 0.7 kg. Each cube has an applied load of 2000 N on one face. Cubes 6, 7, 8, 10, 11, and 12 have an added mass of 0.7 kg. Find the z-acceleration of each cube at t_i = 0 s.

Figure 32: Problem Sketch

Analysis Assumptions and Modeling Notes

Parts 1 through 4 are solid hex elements with ELFORM 1. Parts 5 through 12 are shell elements with ELFORM 2. Shell elements have thickness 10 m. Each part is geometrically the same, but solid parts have eight nodes, while shell parts have just four nodes. Each part shares equal material properties with density 0.0007 kg/m³.

A constant pressure of 20 Pa is applied in the z-direction to a face of each part using *LOAD_SEGMENT. The pressure load is equivalent to a 2000 N force on each segment.

A combined total of 0.7 kg of added mass is distributed across the nodes of shell part 6 using ADDMASS in *ELEMENT_MASS_PART. An added mass of 1.4 kg is dispersed across eight nodes of shell parts 8 and 12 using ADDMASS in *ELEMENT_MASS_PART_SET.

The final translation mass of shell part 10 was set to 1.4 kg using FINMASS in *ELEMENT_MASS_PART. The final translational mass of shell parts 8 and 12 was set to a combined 2.8 kg using FINMASS in *ELEMENT_MASS_PART_SET.

The acceleration of cubes is calculated using the equation below:

At t = 0 s, the analytical solution of a_z for parts 1, 2, 3, 4, 5, and 9 is 2857.14 m/s². The acceleration a_z of parts 6, 7, 8, 10, 11, and 12 is 1428.52 m/s².

Figure 33: Fringe plot of z-acceleration m/s² (t = 0 s)

Results Comparison