Large Deformation Analysis Of A Rubber Sheet With Holes

But on a rubber sheet that is deformed by a small amount this relation turns out to be reversed t 3 is proportional to r 2.

Large deformation analysis of a rubber sheet with holes. As shown in fig. The vertical stiffness and deformation theories of rubber isolators in compression and compression shear states are systemically researched in the paper a series of basic concepts such as origin. 25 mm until the onset of damage. Hence a square is topologically equivalent to a circle.

The tensile displacement is applied on the top boundary in the vertical direction in increments of 0. 10 the rubber sheets have two edge notches of length of a 12 16 20 24 28 mm and the notch radius is 1 mm the boundary conditions are the same as those of previous configuration with a hole. In this study a yield criterion is discussed for the perforated sheet with uniform circular holes by employing an equivalent continuum approach which is then applied to examine the plastic deformation of the perforated sheet with non uniform circular holes. Also its validity for predicting damage is demonstrated through simulations of experiments concerning progressive damage growth and final rupture in polymers undergoing large elastic.

Deformation behavior of rubber blocks and empirical relation was derived based on the assumption that the deformed cylinder has a parabolic profile under small strains. Quire the characterisation of the deformation behaviour of a perforated sheet containing a large number of holes. It is sometimes called rubber sheet geometry because the objects can be stretched and contracted like rubber but cannot be broken. This takes more time and resources than the small displacement solution but gives more accurate results.

Deformation analysis of silicone rubber sheet subjected to keen wc blade indentation article in international journal of automation technology 8 5 761 772 september 2014 with 32 reads. Rubber sheets with double edge notches. You can use a large displacement solution. Its fidelity for predicting large deformation is established by comparison with those of finite element analysis of a rubber sheet with a hole under stretch.

And this changes as the deformation becomes larger. Topology studies properties of spaces that are invariant under any continuous deformation. The analysis of the stress and strain in the perforated material is based on treating the perforated material as an equivalent solid material 1 2.