Low Velocity Impact Response of Composite Sandwich Structure with Hybrid Honeycomb Core / Usman Ayub
Material type:
TextIslamabad : SMME- NUST; 2024Description: 70p. Soft Copy 30cmSubject(s): MS Mechanical EngineeringDDC classification: 621 Online resources: Click here to access online
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Thesis
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School of Mechanical & Manufacturing Engineering (SMME) | School of Mechanical & Manufacturing Engineering (SMME) | E-Books | 621 (Browse shelf) | Available | SMME-TH-1046 |
Lightweight design is one of the key characteristics of engineering design, as light weight not only
reduces operational cost but also reduces the impact on environment due to lesser fuel
consumption. The use of sandwich structures is an important advancement in this regard, as
sandwich structures use geometrically efficient design to reduce weight and offer superior
properties like increased specific strength and stiffness, better fatigue and impact resistance,
thermal conductivity and corrosion resistance as compared to their metallic counterparts.
Sandwich structures, specifically with honeycomb core and fiber reinforced composite face sheets
have been extensively used in aerospace, ship building, rail industry, military and auto motives.
Impact loading, especially low velocity impact, is one of the most critical loading scenario for
sandwich structures, as impact can cause strength degradation and barely visible damage, which
can compromise the structural integrity. In recent times, most of the research has focused on
improving the impact resistance of honeycomb sandwich structures by filling honeycomb with a
filler material because the porous structure of honeycomb cells is the weakest region against impact
loads, especially against oblique impact. This research also focuses on improving the impact
resistance of conventional honeycomb by addition of aluminum grid and foam in honeycomb (HC)
to produce a hybrid honeycomb (HHC) core sandwich panel. Impact tests are carried out using
drop weight method at 30J and 45J for both conventional HC and HHC core and results are
recorded in the form of force-displacement, force-time and energy time-response. The testing
shows that HHC sustained higher peak force and lower displacement as compared to conventional
HC core. The performance index, which compares the performance of HHC with conventional
HC, for HHC-foam impact was 1.31 and 1.26 times for 30J and 45J respectively while for HHCgrid impact was 1.14 and 1.16 times for 30J and 45J respectively, highlighting the improved impact
resistance of HHC core sandwich panels. Damage characterization through macroscopic damage
analysis for damage on surface as well as internal damage was also performed highlighting the
various damage modes like delamination, matrix cracking, core crushing and core buckling among
other.
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