ASIDIC 2019
Aerospace Structural Impact Dynamics International Conference 2019
Important Dates
About ASIDIC 2019
The fourth edition of the Aerospace Structural Impact Dynamics International Conference is being held June 4th-6th 2019, at the University Carlos III de Madrid (UC3M) in Madrid, Spain. The conference will once more provide a forum for researchers, regulatory agencies and industry professionals to present and discuss the latest aerospace crashworthiness regulations, structural impact dynamics, computational & experimental techniques, technologies and current research. The 2019 edition of the ASIDI Conference will be comprised of four technical sessions, two technical workshops, two keynote speaker presentations, and two keynote lectures.
Topics
Aviation, Aerospace, Crashworthiness, Impact dynamics, Uas, Accident reconstruction, Aerospace vatd, Certification by analysis methodology, High and low velocity impact, Bird strike, Composite and metallic materials, Material characterizationCall for Papers
All abstracts submitted for the 2019 edition of the ASIDI Conference must meet the following requirements in order to be considered:
- Criteria for evaluation: All papers will be considered, but you must submit an EXTENDED ABSTRACT consisting of 500-1,000 words, along with the author’s name(s), company/institution, short author bio, and contact details.
- The submission must include sufficient detail to demonstrate to the conference scientific committee the purpose of the paper, the technical foundation for the topics to be discussed, any preliminary results to date, and the expected results of the final paper, including key figures, and references, as appropriate.
- THE CONFERENCE PROGRAM WILL COVER THE FOLLOWING TOPICS:
I. Aerospace Crashworthiness Crashworthiness of Composites and Metallic Aerospace Structures:
- i. Structural Design
- ii. Experimental and Computational Methods
- iii. Ditching/Soil Impact
- iv. Accident Reconstruction
- Crashworthiness of Aircraft Interiors:
- i. Aerospace vATD Developments
- ii. Advanced Restraint Systems
- iii. Aerospace Seat Modeling Techniques: Computational and Experimental methods
- iv. Certification by Analysis Methodology: Seat Structures
- v. Seat Design with Composites and Advanced Materials
II. High and Low Velocity Impact
- Bird Strike Analysis
- Hail Impact
- Foreign Object Damage
- Low Velocity Impact Damage
- UAS Crashworthiness
III. Composite and Metallic Materials-Dynamic Behavior Material Characterization
- Experimental and Computational Methods
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