Numerical Simulation of the Stress-Strain State of a Hybrid Titanium-Polymer Composite Material for Optimizing the Design of Aircraft Structures

Fedor Andreevich Nasonov; Kirill Dmitrievich Kharchenko; Alexander Olegovich Akulinin; Boris Borisovich Morozov

doi:10.4028/p-o64z9s

Paper Titles

Nonlocality of Dynamic Characteristics for Edge Dislocation Segment, Elastic Interaction of Dislocation with Pinning Points, and their Effect on Dislocation AIIF
p.902

Dispersion of the Steel Structure and its Effect on Magnetic and Mechanical Properties of Steel
p.908

Increasing the Fire Resistance of Reinforced Concrete Structures
p.914

Justification of the Titanium-Based Alloy Chemical Composition to Provide High Hardness
p.923

Numerical Simulation of the Stress-Strain State of a Hybrid Titanium-Polymer Composite Material for Optimizing the Design of Aircraft Structures
p.930

Research of Wear Resistance of Medical Materials during Friction with High-Molecular Polyethylene
p.935

In Situ Phase Transformations in CrN/Cr-Сoated E110 Alloy under High Temperature
p.940

Influence of Various Production and Processing Methods on the Structure and Properties of Porous Titanium Coatings
p.947

Investigation of Factors Affecting Adhesion Strength of Adhesive Layer to Substrate Surface
p.953

HomeKey Engineering MaterialsKey Engineering Materials Vol. 910Numerical Simulation of the Stress-Strain State of...

Numerical Simulation of the Stress-Strain State of a Hybrid Titanium-Polymer Composite Material for Optimizing the Design of Aircraft Structures

Abstract:

Work on the current topic of hybrid titanium-polymer composite materials (TPCM) is continuing. After checking the technological feasibility of two-stage processes for manufacturing parts of flat shapes and with a single curvature, identifying opportunities for improving the adhesive interaction, work is carried out to assess the possibility of varying design parameters, such as reinforcement schemes, combinations of components, etc.in order to obtain optimal properties of manufactured parts.

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Periodical:

Key Engineering Materials (Volume 910)

Pages:

930-934

DOI:

https://doi.org/10.4028/p-o64z9s

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Online since:

February 2022

Authors:

Fedor Andreevich Nasonov*, Kirill Dmitrievich Kharchenko, Alexander Olegovich Akulinin, Boris Borisovich Morozov

Keywords:

Composite Material, Polymer Composite Material, Titanium Foil, TPCM (Titan-Polymer Composite Material)

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References

[1] F.A. Nasonov, A.O. Akulinin, B.B. Morozov, U.A. Popova and A.A. Filatov, IOP Conference Series: Materials Science and Engineering 971 (2020) 022062.