Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations
Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations
BM Lee, KJ Loh - Nanotechnology, 2017 - ui.adsabs.harvard.edu
Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations.
BM Lee, KJ Loh - Nanotechnology, 2017 - europepmc.org
Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
[引用][C] Corrigendum: Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations (2017 Nanotechnology 28 155502)
BM Lee, KJ Loh - Nanotechnology, 2019 - iopscience.iop.org
Corrigendum: Carbon nanotube thin film strain sensors: comparison between experimental
tests and numerical simulations (2017 Nan Page 1 Nanotechnology CORRIGENDUM …
tests and numerical simulations (2017 Nan Page 1 Nanotechnology CORRIGENDUM …
Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations
BM Lee, KJ Loh - Nanotechnology, 2017 - pubmed.ncbi.nlm.nih.gov
Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations
BM Lee, KJ Loh - Nanotechnology (Print), 2017 - inis.iaea.org
[en] Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations
BM Lee, KJ Loh - Nanotechnology, 2017 - escholarship.org
Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
[PDF][PDF] Corrigendum: Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations (2017 Nanotechnology 28 155502)
BM Lee, KJ Loh - Nanotechnology, 2019 - escholarship.org
Carbon nanotubes can be randomly deposited in polymer thin film matrices to form
nanocomposite strain sensors. However, a computational framework that enables the direct …
nanocomposite strain sensors. However, a computational framework that enables the direct …
[引用][C] Corrigendum: Carbon nanotube thin film strain sensors: comparison between experimental tests and numerical simulations (2017 Nanotechnology 28 155502)
BM Lee, KJ Loh - Nanotechnology, 2019 - ui.adsabs.harvard.edu
Corrigendum: Carbon nanotube thin film strain sensors: comparison between experimental
tests and numerical simulations (2017 Nanotechnology <A href="https://doi.org/10.1088/1361-6528/aa6382"> …
tests and numerical simulations (2017 Nanotechnology <A href="https://doi.org/10.1088/1361-6528/aa6382"> …