In Chair product, I have used the chromium-vanadium steel material with 250 MPA tensile strength. Then I have applied for mesh onto it by giving its proper value. After that, I have applied force of 500 N on Chair handle. To apply this force, I have fixed the bottom side of the chair. After applying the total deformation and VON MISES STRESS, I have got 295.68 mm deformation and 106 MPA of stress.  So according to results, analysis I have done considering my calculations is on safer side. 

In spring product, I have used stainless steel material by applying force into it of 500 N. Then I have applied coarse mesh on it, but I wasn't getting appropriate results, so I have applied for fine mesh on the spring. Then I selected for the directional deformation along with the Y-axis. After that stress produced into and then I got the expected answer.

In Pillar Structure, I have used stainless steel material. I have applied pressure onto it and fixed its one of the end. Then I have applied pressure of 1 MPA on the pin. Then I applied meshing on to it and I observed that meshing near to the pinholes is not done properly, so I selected the Refinement option and applied near to it. So fine meshing is getting better results.

The Rectangular bar is having its cross-section dimension of 200 x 200 mm for checking its deflection under the load. Then I have fixed its one of the end. After that I have done meshing on the bar, after that I have applied force onto it of 2 Mpa in Y-axis direction. Then I have applied deformation also stress on it, so I get 74.961 MPA stress on to it and 0.6998 mm of deformation into it.

In this product, I took a 3 mm thick and 400 x 200 mm dimension flat plate. Core purpose was of using harmonic response to find out natural frequencies of the part. Also the purpose was to find out the resonance of the particular part and try to avoid that resonance situation. For this, I have made meshing on the part. After that, I selected the Modal option to find the frequencies. I solved total the deformation for all frequencies. After getting the deformation in a particular direction, I selected only one frequency which can produce resonance and give a proper range for perfect solution. Then I have selected Insert option. In that I have applied Force of 100 N and selected the Solve option. Then I got the required answer for the resonance.

In this product, I have made a fin surface that is used to increase the heat transfer rate from the part. So that part can maintain its Internal component to that temperature. I considered a steady-state thermal response. I inserted a heat flux and given a value of 1000 w/m^2. Also given a convection film coefficient of 30 w/m c . Then I applied for a parameters like temperature, total heat flux, and directional heat flux to get proper solution.

I took a Turbo propeller with a fan assembly to check the velocity flow over the fan. First I have applied sizing mesh over it and applied the refinement where required. After that I selected option of setup to give all the parameters like Inlet, outlet and boundary condition. Here, I given the 20 m/s velocity of air flow and 1400 RPM of angular velocity to the fan. Then I selected the option of streamline and given all the starting and end position of flow. After giving all the parameters I got the required answer.