1 / 14

An Analysis of Structural Strength of a Compact Disc

CD Explosion. An Analysis of Structural Strength of a Compact Disc. 01. 06. The Laser is refracted through the polycarbonate layer and then reflects off of the thin Aluminum layer. 02. Inside a Compact Disc . Goal:. Investigate strength and properties of Compact Discs under high rpm

dyan
Télécharger la présentation

An Analysis of Structural Strength of a Compact Disc

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. CD Explosion An Analysis of Structural Strength of a Compact Disc 01

  2. 06

  3. The Laser is refracted through the polycarbonate layer and then reflects off of the thin Aluminum layer 02

  4. Inside a Compact Disc

  5. Goal: Investigate strength and properties of Compact Discs under high rpm 1. Determine if a disk could fail inside a high speed CD-ROM drive. 2. Determine RPM of fracture in CD-ROM drive environment. 3. RPM of fracture of a CD with typical defect. 03

  6. Challenges: • To run an analysis in Ansys we needed material properties (we assumed that majority of material strength is from polycarbonate using MatLab. • 2. How to model scratches (assume axis-symmetric) • 3. Applying forces and creating other physical properties in Ansys

  7. Results: 1. Convergence Test: 30,000 elements sufficiently modeled the physics Von Mises Stress under 27,500 RPM (ANSYS)

  8. Von Mises Stress Distribution

  9. Nodal Displacement

  10. 2. CD without a defect: failure @ 36,230 rpm > 27,500 rpm of a modern CD-ROM 36,230 rpm at which stresses in an un-flawed CD equal Ultimate Tensile Strength Ultimate Tensile Strength of Poly Carbonate: 55-75 Mpa (99.97% material Poly Carbonate) Von Mises Stress under 36320 RPM (ANSYS)

  11. 3. CD with a crack 0.3 mm wide 2 cm long and .15mm deep. • Failure @ ~21,000 rpm (about same as Myth Busters) • Crack propagation

  12. Videos on youtube.com and Myth Busters also show the CD exploding as low as 23,000 RPM. These videos use rotary tools which clamp the disk down, forcing the vibrations caused by unbalanced center of mass to be directed entirely into the disk.

  13. References: www.Howstuffworks.com www.youtube.com Computer Softwares: Ansys Solidworks Mat Lab Microsoft Excel 05

  14. Any Questions? Myth Busted: Enjoy your CD without any fear 06

More Related