Related references
Note: Only part of the references are listed.Mechanical behaviour in shear and compression of polyurethane foam at elevated temperature
Pietro Mazzuca et al.
JOURNAL OF SANDWICH STRUCTURES & MATERIALS (2022)
Predicting vertical ground reaction force during running using novel piezoresponsive sensors and accelerometry
Matthew K. Seeley et al.
JOURNAL OF SPORTS SCIENCES (2020)
Effect of environmental and material factors on the response of nanocomposite foam impact sensors
Evan Bird et al.
SMART MATERIALS AND STRUCTURES (2018)
Schottky model for triboelectric temperature dependence
Martin Olsen et al.
SCIENTIFIC REPORTS (2018)
On Maxwell's displacement current for energy and sensors: the origin of nanogenerators
Zhong Lin Wang
MATERIALS TODAY (2017)
Nano-Composite Foam Sensor System in Football Helmets
A. Jake Merrell et al.
ANNALS OF BIOMEDICAL ENGINEERING (2017)
Estimation of 3D Ground Reaction Force Using Nanocomposite Piezo-Responsive Foam Sensors During Walking
Parker G. Rosquist et al.
ANNALS OF BIOMEDICAL ENGINEERING (2017)
Effect of Polymer Matrix on the Structure and Electric Properties of Piezoelectric Lead Zirconatetitanate/Polymer Composites
Rui Li et al.
MATERIALS (2017)
Mechanical Property Evaluation of Polyurethane Foam under Quasi-static and Dynamic Strain Rates- An Experimental Study
J. V. Mane et al.
PLASTICITY AND IMPACT MECHANICS (2017)
Vibration monitoring via nano-composite piezoelectric foam bushings
Evan T. Bird et al.
SMART MATERIALS AND STRUCTURES (2016)
Evolution of nano-junctions in piezoresistive nanostrand composites
R. Adam Bilodeau et al.
COMPOSITES PART B-ENGINEERING (2015)
The mechanical response of a syntactic polyurethane foam at low and high rates of strain
A. Pellegrino et al.
INTERNATIONAL JOURNAL OF IMPACT ENGINEERING (2015)
Review of Trackside Monitoring Solutions: From Strain Gages to Optical Fibre Sensors
Georges Kouroussis et al.
SENSORS (2015)
In situ monitoring of the strain evolution and curing reaction of composite laminates to reduce the thermal residual stress using FBG sensor and dielectrometry
Hak-Sung Kim et al.
COMPOSITES PART B-ENGINEERING (2013)
Sensing strain and damage in polyurethane-MWCNT nano-composite foams using electrical measurements
A. Baltopoulos et al.
EXPRESS POLYMER LETTERS (2013)
Frequency-Multiplication High-Output Triboelectric Nanogenerator for Sustainably Powering Biomedical Microsystems
Xiao-Sheng Zhang et al.
NANO LETTERS (2013)
Study of factors influencing the mechanical properties of polyurethane foams under dynamic compression
E. Linul et al.
INTERNATIONAL SYMPOSIUM ON DYNAMIC DEFORMATION AND FRACTURE OF ADVANCED MATERIALS (D2FAM 2013) (2013)
Electrical conductivity of polyurethane/MWCNT nanocomposite foams
N. Athanasopoulos et al.
POLYMER COMPOSITES (2012)
Piezoresistive response of epoxy composites with carbon nanoparticles under tensile load
Malte H. G. Wichmann et al.
PHYSICAL REVIEW B (2009)
Direction sensitive bending sensors based on multi-wall carbon nanotube/epoxy nanocomposites
Malte H. G. Wichmann et al.
NANOTECHNOLOGY (2008)
Tomography and Simulation of Microstructure Evolution of a Closed-Cell Polymer Foam in Compression
N. P. Daphalapurkar et al.
MECHANICS OF ADVANCED MATERIALS AND STRUCTURES (2008)
Development of a vibrating wire strain gauge for measuring small strains in concrete beams
SA Neild et al.
STRAIN (2005)
Dielectric barrier microdischarges: Mechanism for the charging of cellular piezoelectric polymers
M Lindner et al.
JOURNAL OF APPLIED PHYSICS (2002)
Plastic deformation modes in rigid polyurethane foam under static loading
ZH Tu et al.
INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES (2001)
Share Paper
