Presentation is loading. Please wait.

Presentation is loading. Please wait.

A Novel Full-scale Validation of Thermal Degradation of Polymer Foam Cored Sandwich Structures R.K. Fruehmann, J.M. Dulieu-Barton, O.T. Thomsen15.02. 2011.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "A Novel Full-scale Validation of Thermal Degradation of Polymer Foam Cored Sandwich Structures R.K. Fruehmann, J.M. Dulieu-Barton, O.T. Thomsen15.02. 2011."— Presentation transcript:

1 A Novel Full-scale Validation of Thermal Degradation of Polymer Foam Cored Sandwich Structures R.K. Fruehmann, J.M. Dulieu-Barton, O.T. Thomsen15.02. 2011

2 2 Outline Background Review of design brief Design for mechanical boundary conditions Thermal gradient measurement Validation tests Conclusions

3 3 Background EC1EC1 EC2EC2 E C1 < E C2 PVC foam core Metal or composite face sheet T out T in

4 4 Background Thermal degradation of PVC foam stiffness

5 5 Background Face sheet displacement at different loads Force / mid-span displacement results from 3 different models (Frostig et al. 2004) High-order sandwich panel theory (HSAPT) predicts strongly non-linear interactions between mechanical and thermal loads. Strongly non-linear and unstable load response and limit point behaviour in some cases. Load response strongly sensitive to boundary conditions. Experimental validation is required.

6 6 Design Brief Mechanical 1.Simply supported 2.Lower corner fixed – free to rotate 3.Fully clamped Thermal 1.Uniform across width 2.Linear through thickness Measurement 1.Non-contact (DIC & IR) Condition 1 Condition 2 Condition 3

7 7 Design space Loading frame Actuator 3 point bend rig Load cell

8 8 Design – End constraint fixture Platform Fork Specimen clamp Axis CG Counter balance

9 9 Face sheet thickness Design – End constraint fixture Axis Height adjustment Platform height

10 10 Design – Boundary condition 3

11 11 Design – Boundary condition 3 Main platform shaft Platform Axis Fixation bolt Vertical supports

12 12 Design – General arrangement Radiator Insulation Mirror to monitor top face sheet Mirror to monitor bottom face sheet

13 13 Thermal gradient

14 14 Thermal gradient

15 15 Thermal gradient

16 16 Thermal gradient

17 17 Thermal gradient Thermal degradation of PVC foam stiffness

18 18 Thermal gradient Thermal degradation of PVC foam stiffness

19 19 Thermal gradient Thermal degradation of PVC foam stiffness

20 20 Validation tests Specimen dimensions: –450 x 50 x 27 mm –1 mm thick aluminium face sheets –25 mm thick H100 PVC foam Temperature profile across the width and through the thickness Recorded the deformations at the mid-span using DIC

21 21 Thermal gradient 1 second 5 seconds 10 seconds 15 seconds

22 22 Thermal gradient

23 23 Mid-span deformation 1 2

24 24 Mid-span deformation

25 25 Mid-span deformation

26 26 Mid-span deformation Careful consideration of face sheet failure loads to avoid indentation failure preceding geometric non-linearity.

27 27 Conclusions Thermal and mechanical boundary conditions have been achieved. Mid-span deflections correspond qualitatively with model predictions for the simply supported case.

28 28 Future challenges Optimise specimen configuration (material and geometry) to remain in the elastic region. Obtain DIC data from the thin face sheets. Obtain DIC data below the roller during indentation.

29 Thank you

Download ppt "A Novel Full-scale Validation of Thermal Degradation of Polymer Foam Cored Sandwich Structures R.K. Fruehmann, J.M. Dulieu-Barton, O.T. Thomsen15.02. 2011."

Similar presentations

Structural scales and types of analysis in composite materials

Structural scales and types of analysis in composite materials
Portal Framed Construction

Portal Framed Construction
Meshless Local Buckling Analysis of Steel Beams with Web Openings A.R. Zainal Abidin, B.A. Izzuddin Department of Civil and Environmental Engineering.

Meshless Local Buckling Analysis of Steel Beams with Web Openings A.R. Zainal Abidin, B.A. Izzuddin Department of Civil and Environmental Engineering.
Modeling of Neo-Hookean Materials using FEM

Modeling of Neo-Hookean Materials using FEM
STRUCTURAL WRINKLING PREDICTIONS FOR MEMBRANE SPACE STRUCTURES

STRUCTURAL WRINKLING PREDICTIONS FOR MEMBRANE SPACE STRUCTURES
Multi-Physics Numerical Modeling and Experimental Characterization of Materials Vincent Y. Blouin Assistant Professor Materials Science and Engineering.

Multi-Physics Numerical Modeling and Experimental Characterization of Materials Vincent Y. Blouin Assistant Professor Materials Science and Engineering.
Overview of Loads ON and IN Structures / Machines

Overview of Loads ON and IN Structures / Machines
Micro-Scale Experiments and Models for Composite Materials PhD project duration: 1. January 2012 - 31. December 2014 Project type & funding: PhD-A project,

Micro-Scale Experiments and Models for Composite Materials PhD project duration: 1. January December 2014 Project type & funding: PhD-A project,
Sample Problem 4.2 SOLUTION:

Sample Problem 4.2 SOLUTION:
Beams and Frames.

Beams and Frames.
NEW DESIGN FOR RF FINGERS C. Garion 5 June, 2012TE-VSC1 Acknowledgements to A. Lacroix and H. Rambeau for materials and help.

NEW DESIGN FOR RF FINGERS C. Garion 5 June, 2012TE-VSC1 Acknowledgements to A. Lacroix and H. Rambeau for materials and help.
Flexures for Optics. Outline Brief overviews of micro flexures Focus on macro flexures in this tutorial Beam bending Symmetry -> precision Degree of freedom.

Flexures for Optics. Outline Brief overviews of micro flexures Focus on macro flexures in this tutorial Beam bending Symmetry -> precision Degree of freedom.
Eurocode 1: Actions on structures – Part 1–2: General actions – Actions on structures exposed to fire Part of the One Stop Shop program Annex B (informative)

Eurocode 1: Actions on structures – Part 1–2: General actions – Actions on structures exposed to fire Part of the One Stop Shop program Annex B (informative)
HRR Integral Recall with is the integration constant.

HRR Integral Recall with is the integration constant.
Model: Shear Bender.

Model: Shear Bender.
Strength of Materials I EGCE201 กำลังวัสดุ 1

Strength of Materials I EGCE201 กำลังวัสดุ 1
2009 ASME Wind Energy Symposium Static and Fatigue Testing of Thick Adhesive Joints for Wind Turbine Blades Daniel Samborsky, Aaron Sears, John Mandell,

2009 ASME Wind Energy Symposium Static and Fatigue Testing of Thick Adhesive Joints for Wind Turbine Blades Daniel Samborsky, Aaron Sears, John Mandell,
UNIVERSITY OF THE BASQUE COUNTRY

UNIVERSITY OF THE BASQUE COUNTRY
Department of Mechanical and Manufacturing Engineering MEASUREMENT OF MECHANICAL PROPERTIES OF PVC FOAM USING A MODIFIED ARCAN FIXTURE S T Taher 1, O T.

Department of Mechanical and Manufacturing Engineering MEASUREMENT OF MECHANICAL PROPERTIES OF PVC FOAM USING A MODIFIED ARCAN FIXTURE S T Taher 1, O T.
Princeton University Department of Mechanical and Aerospace Engineering The Effect of Inclination on Grain Boundary Mobility Hao Zhang; Mikhail I. Mendelev;

Princeton University Department of Mechanical and Aerospace Engineering The Effect of Inclination on Grain Boundary Mobility Hao Zhang; Mikhail I. Mendelev;

Similar presentations

Ads by Google