Damping capacity
View article: Viscoelastic and Damping Behavior of Composed Modified Asphalt for Functional Interlayers in Photovoltaic Pavements
Viscoelastic and Damping Behavior of Composed Modified Asphalt for Functional Interlayers in Photovoltaic Pavements Open
This study presents the development and performance evaluation of a rock asphalt-modified damping asphalt binder tailored for interlayer applications in photovoltaic pavement systems. A series of composite binders was formulated by incorpo…
View article: Variable damping of pneumatic soft robots with shape memory alloys
Variable damping of pneumatic soft robots with shape memory alloys Open
Variable impedance of upper limbs is critical for multifaceted daily activities, adapting to varying physical environments, and facilitating social interactions. Existing soft wearable robots predominantly focus on stiffness modulation, wi…
View article: Tunable network architecture in a hydrogel with extreme vibration damping properties
Tunable network architecture in a hydrogel with extreme vibration damping properties Open
Damping technologies aim to control the loads and deformations generated by ambient or forced vibrations in structures and machineries used in transport applications and construction. Traditionally, the materials used in damping devices ar…
View article: Effect of heat treatment on microstructure, damping capacity and tensile properties of as-cast Al0.5CrFe2Ni medium entropy alloy
Effect of heat treatment on microstructure, damping capacity and tensile properties of as-cast Al0.5CrFe2Ni medium entropy alloy Open
View article: Fe<sub>3</sub>Cr<sub>2</sub>CoCuNiAl<sub> <i>x</i> </sub> high-entropy alloys with high damping capacity and high mechanical properties
Fe<sub>3</sub>Cr<sub>2</sub>CoCuNiAl<sub> <i>x</i> </sub> high-entropy alloys with high damping capacity and high mechanical properties Open
Alloys with exceptional vibration absorption properties and strong mechanical features are crucial for various applications. This study investigates the impact of altering the aluminum molar ratio on the phase constituent, microstructure, …
View article: Damping factor in magnetorheological shear stiffening gel: Fabrication and formulation of a fractional constitutive model
Damping factor in magnetorheological shear stiffening gel: Fabrication and formulation of a fractional constitutive model Open
A variety of magnetorheological shear stiffening gels (MRSSGs) were synthesised by incorporating varying amounts of carbonyl iron powder (CIP) into a shear stiffening gel (SSG) matrix. The dynamic damping performance of the MRSSG was initi…
View article: Achieving High Damping Capacity in Oxygen‐Enhanced BCC Zr‐Hf‐Ti‐Nb Multi‐Principal‐Element Alloys with Low Young's Modulus
Achieving High Damping Capacity in Oxygen‐Enhanced BCC Zr‐Hf‐Ti‐Nb Multi‐Principal‐Element Alloys with Low Young's Modulus Open
Multi‐principal‐element alloys (MPEAs) have gained widespread popularity due to the efficient synergetic regulation of mechanical and functional properties in a huge compositional space. Here, novel O‐enhanced BCC Zr‐Hf‐Ti‐Nb MPEAs with pr…
View article: Effect of Al content on phase evolution, damping capacity, and mechanical properties of AlxCrFe3Ni medium entropy alloys
Effect of Al content on phase evolution, damping capacity, and mechanical properties of AlxCrFe3Ni medium entropy alloys Open
View article: Evolution of damping capacity and vacancy behavior with the environmental temperature in ductile Cu–Al–Mn–Ni alloys
Evolution of damping capacity and vacancy behavior with the environmental temperature in ductile Cu–Al–Mn–Ni alloys Open
View article: Armored polymer-fluid gels with integrated damping and impact protection across broad temperatures
Armored polymer-fluid gels with integrated damping and impact protection across broad temperatures Open
Unpreferable vibrations and impacts pose substantial risks to sensitive devices, structures, and the human body, demanding materials capable of providing both high energy dissipation and impact protection across a broad temperature range. …
View article: The ultrahigh damping capacity in a friction stir-processed Cu-Al-Ni high-temperature shape memory alloy
The ultrahigh damping capacity in a friction stir-processed Cu-Al-Ni high-temperature shape memory alloy Open
Friction stir-processed (FSPed) Cu-13.2Al-4Ni (wt.%) high-temperature shape memory alloy exhibited ultrahigh internal friction of ≈0.41 at low frequencies. The ultrahigh-damping capacity was attributed to the grain refinement and the textu…
View article: The Influence of the Axial Texture of Ferromagnetic Co–Fe Alloys on Their Damping Capacity
The Influence of the Axial Texture of Ferromagnetic Co–Fe Alloys on Their Damping Capacity Open
View article: Microstructure and Damping Capacity of High-Temperature Damping Za27/7075al Composites Prepared by Friction Stir Processing
Microstructure and Damping Capacity of High-Temperature Damping Za27/7075al Composites Prepared by Friction Stir Processing Open
View article: Effects of Mn Segregation On Mechanical Properties and Damping Capacity of Mn-Cu Alloy
Effects of Mn Segregation On Mechanical Properties and Damping Capacity of Mn-Cu Alloy Open
View article: Influence of Сrystal Microdistortions on the Amplitude-Dependent Damping Capacity of Ferromagnetic Co-Fe Coatings
Influence of Сrystal Microdistortions on the Amplitude-Dependent Damping Capacity of Ferromagnetic Co-Fe Coatings Open
View article: The Effects of Solid Solution and Aging on the Mechanical and Damping Capacity of Magnesium-Lithium Alloys Under High-Temperature and High-Pressure Conditions
The Effects of Solid Solution and Aging on the Mechanical and Damping Capacity of Magnesium-Lithium Alloys Under High-Temperature and High-Pressure Conditions Open
View article: Damping of timber constructions in earthquake situation:materials, connections, and structures
Damping of timber constructions in earthquake situation:materials, connections, and structures Open
Vibration damping is a complex physical phenomenon involving the dissipation of energy and is an essential dynamic property for ensuring the serviceability in wind conditions and resistance of structures to earthquakes. This study presents…
View article: A molecular dynamics assisted insight on damping enhancement in carbon fiber reinforced polymer composites with oriented multilayer graphene oxide coatings
A molecular dynamics assisted insight on damping enhancement in carbon fiber reinforced polymer composites with oriented multilayer graphene oxide coatings Open
Fiber-reinforced polymer composites with high damping performance have been required in diverse applications. The interlayer slip characteristics of the graphene family offer a clear benefit in enhancing the damping performance of material…
View article: Internal Damping Ratio of Normal and High Strength Concrete considering Mechanical Damage Evolution
Internal Damping Ratio of Normal and High Strength Concrete considering Mechanical Damage Evolution Open
There are few results about the internal damping ratio of normal and high strength concretes. Hence, this paper presents the expansion of the investigation about internal damping ratio under undamaged and damaged conditions, for usual conc…
View article: Effect of resin amount on the damping properties of polymer concrete
Effect of resin amount on the damping properties of polymer concrete Open
In the construction and infrastructure sector, efforts are being made to find faster and more efficient materials. Polymer concrete (PC) challenges traditional concrete with its fast setting, durability and abrasion resistance. While studi…
View article: On the Damping Performance and Mechanical Response of Additive-Manufactured and Thermo-Mechanical Processed AlSiMg Alloy
On the Damping Performance and Mechanical Response of Additive-Manufactured and Thermo-Mechanical Processed AlSiMg Alloy Open
Recent advancements in additive manufacturing (AM) fuel efforts for expanding the design envelopes for components obtained via this technology through continuous improvement in mechanical behavior. Damping properties can also be altered de…
View article: A Novel Method to Characterize the Damping Capacity of EPDM/CIIR Blends Using Vibrating Rubber Balls
A Novel Method to Characterize the Damping Capacity of EPDM/CIIR Blends Using Vibrating Rubber Balls Open
An experimental device fixed with a laser displacement sensor was assembled to investigate the rebound behaviors and damping mechanism of rubber balls prepared with ethylene-propylene-diene monomer (EPDM)/chlorinated butyl rubber (CIIR) bl…
View article: Enhancing hydrogen storage capacity: MWCNT-infused Mg–Ti alloy synthesized via mechanical alloying
Enhancing hydrogen storage capacity: MWCNT-infused Mg–Ti alloy synthesized via mechanical alloying Open
View article: Experimental Investigation of Load-Bearing Capacity in EN AW-2024-T3 Aluminum Alloy Sheets Strengthened by SPIF-Fabricated Stiffening Rib
Experimental Investigation of Load-Bearing Capacity in EN AW-2024-T3 Aluminum Alloy Sheets Strengthened by SPIF-Fabricated Stiffening Rib Open
The aluminum strength-to-weight ratio has become a highly significant factor in industrial applications. Placing stiffening ribs along the surface can significantly improve the panel’s resistance to bending and compression in aluminum allo…
View article: Dynamic mechanical damping analysis of up/step-quenched Cu-Zn-Sn-based shape memory alloys
Dynamic mechanical damping analysis of up/step-quenched Cu-Zn-Sn-based shape memory alloys Open
The effect of thermal quenching procedures on the damping properties of Cu-Zn-Sn-based SMAs is reported. Three compositions of Cu-Zn-Sn-based SMAs designated A (Cu-15.6Zn-12.1Sn), B (Cu-26.1Zn-9.3Sn), and C (Cu-29.6Zn-8.9Sn) samples produc…
View article: Strengthening Mechanism and Damping Properties of SiCf/Al-Mg Composites Prepared by Combining Colloidal Dispersion with a Squeeze Melt Infiltration Process
Strengthening Mechanism and Damping Properties of SiCf/Al-Mg Composites Prepared by Combining Colloidal Dispersion with a Squeeze Melt Infiltration Process Open
SiC-fiber-reinforced Al-Mg matrix composites with different mass fractions of Mg were fabricated by combining colloidal dispersion with a squeeze melt infiltration process. The microstructure, mechanical and damping properties, and the cor…
View article: Thickness-Dependent Gilbert Damping and Soft Magnetism in Metal/Co-Fe-B/Metal Sandwich Structure
Thickness-Dependent Gilbert Damping and Soft Magnetism in Metal/Co-Fe-B/Metal Sandwich Structure Open
The achievement of the low Gilbert damping parameter in spin dynamic modulation is attractive for spintronic devices with low energy consumption and high speed. Metallic ferromagnetic alloy Co-Fe-B is a possible candidate due to its high c…
View article: Effects of the Cr and Ni Concentrations on the Fatigue and Corrosion Resistances of Fe–Mn–Cr–Ni–Si Alloys for Seismic Damping Applications
Effects of the Cr and Ni Concentrations on the Fatigue and Corrosion Resistances of Fe–Mn–Cr–Ni–Si Alloys for Seismic Damping Applications Open
Previous research has shown that Fe–Mn–Cr–Ni–Si alloys offer excellent low-cycle fatigue resistance via reversible bidirectional transformation between face-centered cubic (FCC) γ-austenite and hexagonal closed-packed (HCP) ε-martensite. T…
View article: Research Progress and the Prospect of Damping Magnesium Alloys
Research Progress and the Prospect of Damping Magnesium Alloys Open
As the lightest structural metal material, magnesium alloys possess good casting properties, high electrical and thermal conductivity, high electromagnetic shielding, and excellent damping properties. With the increasing demand for lightwe…
View article: An Investigation of Energy Dissipation in Beta III Titanium Alloy
An Investigation of Energy Dissipation in Beta III Titanium Alloy Open
This work investigates the effects of a supertransus annealing treatment, followed by plastic deformation, on the damping properties of a Ti-11.5Mo-6Zr-4.5Sn alloy. In our study, no evidence of α ″-phase was found. A heat treatment at 800°…