Bending Response of 3D-Printed Titanium Alloy Sandwich Panels with Corrugated Channel Cores

Zhao, Zhen-Yu; Ren, Jianwei; Du, Shanyi; Wang, Xin; Wei, Zihan; Zhang, Qiancheng; Zhou, Yufei; Yang, Zhikun; Lu, Tian Jian

doi:10.3390/ma14030556

Cited by 15 publications

(4 citation statements)

References 35 publications

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“…Hu et al [18] designed corrugated lattice truss sandwich panels and observed potential failure modes of structure fracture and bulking in compression. Zhao et al [19] proposed a corrugated channel sandwich core available for load-bearing and active cooling systems, whose compression performance was better under the same density. Ravishankar et al [20] carried out thermal and mechanical analyses with uncertainties for ITPS with double layers.…”

Section: Introductionmentioning

confidence: 99%

Thermomechanical Behaviors of a Novel Double-Layer Corrugated Core Structure for Thermal Protection System

Hang

Dai

2023

International Journal of Aerospace Engineering

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Corrugated core sandwich structures have great potential in the application to thermal protection system of aerospace vehicles. However, the traditional layout of web plates could inevitably lead to thermal short effects and high risk of buckling failure of the integrated thermal protection system (ITPS). In this paper, a novel double-layer ITPS is proposed by splitting and reorganizing a classical corrugated sandwich structure without additional introducing of weight. Distribution types of parallel, symmetric, and orthogonal of the double layers are designed and studied in detail. Basic theory of the thermomechanical problem as well as finite element simulation is carried out to study the responses of the ITPS. Numerical results show that the orthogonal type has more excellent yield resistance at high temperature and large temperature gradient than the others, while the parallel type has a relatively stronger buckling resistance. In addition, the structural stiffness variation caused by temperature dependencies of material parameters is greater than that caused by thermal stress, which shows the significance of consideration of temperature-dependent material properties in structure vibration analysis.

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Section: Introductionmentioning

confidence: 99%

Thermomechanical Behaviors of a Novel Double-Layer Corrugated Core Structure for Thermal Protection System

Hang

Dai

2023

International Journal of Aerospace Engineering

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“…Three-dimensional (3D) printing technique can manufacture the 3D physical consistent with the corresponding mathematical mode by stacking materials layer by layer [25][26][27]. Benefiting from its process flexibility and large-scale scalability, the cost-effective direct ink writing (DIW) method, known as 3D printing based on ink extrusion, opens the way for the next-generation power sources [28].…”

Section: Introductionmentioning

confidence: 99%

Self-Healing and Highly Stretchable Hydrogel for Interfacial Compatible Flexible Paper-Based Micro-Supercapacitor

Wang

Shi

et al. 2021

Materials

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Most reported wearable electronic devices lack self-healing chemistry and flexible function to maintain stable energy output while irreversible damages and complex deformations. In this work, we report a dual-dynamic network electrolyte synthesized by micellar elastomers introduced into strong hydrogel matrix. The gel electrolyte is fabricated by physically cross-linking the borax-polyvinyl alcohol (B-PVA) network as tough matrix and poly (ethylene oxide) (PEO)-poly (propylene oxide) (PPO)-poly (ethylene oxide) (Pluronic) to frame elastic network, followed by immersion in potassium chloride solution. Under the action of dynamic borate ester bond and multi-network hydrogen bond, the as-prepared electrolyte exhibits high stretchability (1535%) and good self-healing efficiency. Based on the electrolyte, we assemble the interfacial compatible micro-supercapacitor (MSC) by multi-walled carbon nanotubes (MWCNT) interdigital electrode printed on cellulosic paper by direct ink writing (DIW) technique. Thanks to the large specific area and compressive deformation resistance of cellulosic paper, the MSC with tightly interfacial contact achieves high volumetric capacitance of 801.9 mF cm−3 at the current density of 20 μA cm−2. In the absence of stimulation of the external environment, the self-healing MSC demonstrates an ideal capacity retention (90.43%) after five physical damaged/healing cycles. Our research provides a clean and effective strategy to construct wearable MSC.

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“…The mechanical and physical properties of titanium alloy Ti6Al4V have been broadly described in the literature. These alloys can be widely applied in many fields, such as 3D printing of ultralight sandwich structures with corrugated cores in aerospace [ 13 ] and medical [ 14 ] applications.…”

Section: Introductionmentioning

confidence: 99%

Energy Absorbing Properties Analysis of Layers Structure of Titanium Alloy Ti6Al4V during Dynamic Impact Loading Tests

et al. 2021

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This paper presents the testing methodology of specimens made of layers of titanium alloy Ti6Al4V in dynamic impact loading conditions. Tests were carried out using a drop-weight impact tower. The test methodology allowed us to record parameters as displacement or force. Based on recorded data, force and absorbed energy curves during plastic deformation and sheet perforation were created. The characteristics of the fractures were also analyzed. The impact test simulation was carried out in the ABAQUS/Explicit environment. Results for one, two, and three layers of titanium alloy were compared. The increase in force required to initialize the damage and the absorbed energy during plastic deformation can be observed with an increase in the number of layers. The increase in absorbed energy is close to linear. In the simulation process, parameters such as Huber–Mises–Hencky stress value, equivalent plastic strain, temperature increase, and stress triaxiality were analyzed.

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Bending Response of 3D-Printed Titanium Alloy Sandwich Panels with Corrugated Channel Cores

Cited by 15 publications

References 35 publications

Thermomechanical Behaviors of a Novel Double-Layer Corrugated Core Structure for Thermal Protection System

Thermomechanical Behaviors of a Novel Double-Layer Corrugated Core Structure for Thermal Protection System

Self-Healing and Highly Stretchable Hydrogel for Interfacial Compatible Flexible Paper-Based Micro-Supercapacitor

Energy Absorbing Properties Analysis of Layers Structure of Titanium Alloy Ti6Al4V during Dynamic Impact Loading Tests

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