TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.
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Transcript of TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.
![Page 1: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/1.jpg)
TED Thermomechanical AnalysesEsposito Raffaele EN-STI-TCD
![Page 2: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/2.jpg)
TED core
Cu-BeInsert
(C17200)
Cu-OFEAl (6082 T6)Graphite (R7500)
Beam type: LHC-Standard (25 ns)Particle energy: 450 GeVProtons per bunch: 1.2e11Bunches per pulse: 288Protons per pulse: 3.456e13Bunch period: 25 nsPulse time: 7.2 μsPulse period: 21.6 sEnergy per pulse: 2.492 MJAverage power: 115.4 kW
![Page 3: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/3.jpg)
Graphite – Steady State Thermal Analysis
Max. Temperature: 109.23 °C
![Page 4: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/4.jpg)
Graphite – Transient Thermal Analysis
Max. Temp.: 631.19 °C
![Page 5: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/5.jpg)
Graphite – Transient Structural AnalysisMax. Compressive Principal Stress: 38.11 MPa
![Page 6: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/6.jpg)
Graphite – Transient Structural Analysis
Max. Tensile Principal Stress: 6.6671 MPa
![Page 7: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/7.jpg)
Graphite – Transient Structural AnalysisMax. Von Mises Equivalent Stress: 21.235 MPa
![Page 8: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/8.jpg)
Aluminum – Steady State Thermal Analysis
Max. Temperature: 87.596 °C
![Page 9: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/9.jpg)
Aluminum – Transient Thermal Analysis
Max. Temperature: 131.29 °C
![Page 10: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/10.jpg)
Aluminum – Transient Structural Analysis
Max. Compressive Principal Stress: 280.98 MPa
![Page 11: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/11.jpg)
Aluminum – Transient Structural Analysis
Max. Tensile Principal Stress: 137.52 MPa
![Page 12: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/12.jpg)
Aluminum – Transient Structural Analysis
Max. Von Mises Equivalent Stress: 134.09 MPa
![Page 13: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/13.jpg)
Cu-Be – Steady State Thermal AnalysisMax. Temperature: 176.19 °C
![Page 14: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/14.jpg)
Cu-Be – Transient Thermal AnalysisMax. Temperature: 147.96 °C
![Page 15: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/15.jpg)
Cu-Be – Transient Structural Analysis
Max. CompressivePrincipal Stress:
505.89 MPa
![Page 16: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/16.jpg)
Cu-Be – Transient Structural AnalysisMax. Tensile Principal Stress: 113.31 MPa
![Page 17: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/17.jpg)
Cu-Be – Transient Structural AnalysisMax. Von Mises Equivalent Stress: 283.73 MPa
![Page 18: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/18.jpg)
Copper – Steady State Thermal Analysis
Max. Temperature: 72.879 °C
![Page 19: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/19.jpg)
Copper – Transient Thermal Analysis
Max. Temperature: 49.398 °C
![Page 20: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/20.jpg)
Copper – Transient Structural AnalysisMax. Compressive Principal Stress: 179.12 MPa
![Page 21: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/21.jpg)
Copper – Transient Structural AnalysisMax. Tensile Principal Stress: 103.68 MPa
![Page 22: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/22.jpg)
Copper – Transient Structural AnalysisMax. Von Mises Equivalent Stress: 138.7 MPa
![Page 23: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/23.jpg)
Summary
Material Graphite Aluminum Cu-Be Copper
Max. Temp. [°C] 631.19* 131.29 176.19 72.879
Min. Princ. [MPa] 38.11 280.98* 505.89* 179.12*
Compr. Strength 105.68 192 (Y) – 224 510 (Y) – 580 200 (Y) – 240
Max. Princ. [MPa] 6.6671 137.52 113.31 103.68
Max. V. M. [MPa] 21.235 134.09 283.73 138.7
Tensile Strength 26.4 192 (Y) – 224 510 (Y) – 580 200 (Y) – 240
*We shouldn’t have oxidation problems since the graphite stays beyond 400 °C for only 8 milliseconds per pulse
*Stresses with a strong hydrostatic component
![Page 24: TED Thermomechanical Analyses Esposito Raffaele EN-STI-TCD.](https://reader033.fdocument.pub/reader033/viewer/2022051215/56649d885503460f94a6dba5/html5/thumbnails/24.jpg)
Thank you for your attention