In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock… - Artificial …, 2020 - Wiley Online Library
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller‐housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock, A Kopp… - Artificial Organs, 2020 - infona.pl
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller‐housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock, A Kopp… - 2020 - publica.fraunhofer.de
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller-housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates.
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock… - Artificial …, 2019 - europepmc.org
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller-housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock… - Artificial …, 2020 - research.utwente.nl
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller-housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates
M Klein, Y Kuhn, E Woelke, T Linde… - Artificial …, 2020 - pubmed.ncbi.nlm.nih.gov
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller-housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
[PDF][PDF] In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock, A Kopp… - 2019 - ris.utwente.nl
Passively levitated ventricular assist devices (VADs) are vulnerable to impellerhousing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
In vitro study on the hemocompatibility of plasma electrolytic oxidation coatings on titanium substrates.
M Klein, Y Kuhn, E Woelke, T Linde, C Ptock… - Artificial …, 2020 - search.ebscohost.com
Passively levitated ventricular assist devices (VADs) are vulnerable to impeller‐housing
contact and could benefit from surface coatings that improve wear resistance. Such coatings …
contact and could benefit from surface coatings that improve wear resistance. Such coatings …