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Ladder development update Results from SiC 01 test Profile from SiC 03 Mechanical properties of foams.

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Presentation on theme: "Ladder development update Results from SiC 01 test Profile from SiC 03 Mechanical properties of foams."— Presentation transcript:

1 Ladder development update Results from SiC 01 test Profile from SiC 03 Mechanical properties of foams

2 SiC 01- Sample Cool Down Sample cooled down down to -38 o C over a period of 175min. 3 plots taken at -38 with 30min interval between each. 2 further plot taken at -40 with 15min gap. Final plot taken when pressure was released (during this the temperature changed from -38.3 to -37.2).

3 SiC 01- Profile Plots Top two plots show 2D profiles of SiC 01 at 21.3 o C and -40.6 o C. Bottom left plot is the difference between the two.

4 SiC 01- Results Table Time (min)Temp ( o C)Max Z Displacement (microns) Min Z Displacement (microns) X co-ordinate for Max (microns) X co-ordinate for Min (microns) Magnitude of displacement (microns) 021.34.50-93.75500013300098.24 150-35.24.23-105.827000135000110.04 175-383.99-107.555000135000111.54 192-38.53.93-106.257000135000110.18 216-38.34.23-106.617000135000110.83 248-40.53.81-108.285000133000112.09 262-40.63.90-109.237000135000113.12 272-38.3 -37.24.25-111.567000135000115.85 Numbers high lighted in red where used in plots shown on the previous slide

5 SiC 03 High spot at 568 microns due to dirt on the surface. Low spot comes from gap in the Si and the sensor picking up a signal from the Al sample holder. Z displacement magnitude approximately 500 micorns.

6 SiC 03 - Glue pillars LCD microscope output from laser shows difference between inner and outer glue pillars Outer Edge Inner Si as seen by laser microscope

7 Basic model consists of interconnecting open celled cubes and, if structure is dominated by wall bending failure, then mechanical properties follow scale laws. For elastic modulus: Constant of proportionality has been shown to be close to unity in experiment and numerical simulation. Simon Canfer is now testing a selection of SiC and RVC to test this theory. The full list of mechanical properties that can be determined are: 1.Elastic modulus under compression 2.Poisson's ratio under compression 3.Flexural strength To test under tension will require making samples in different geometries. Thermal properties that can be tested are: 1.Coefficient of thermal expansion 2.Moisture absorption Mechanical Properties of Foams

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