Inventor · disambiguated record
Paul D. Jablonski
Also filed as: JABLONSKI PAUL · JABLONSKI PAUL D
14 granted patents·5 pending applications·102 citations·filing 1992–2025
91Inventor score
Top patents by PatentIndex Score
19 records- 0193US9556503B1Creep resistant high temperature martensitic steelHAWK JEFFREY A·Filed 2015·Granted Jan 31, 2017·9 cites·17 claims
- 0293US8246767B1Heat treated 9 Cr-1 Mo steel material for high temperature applicationJABLONSKI PAUL D·Filed 2008·Granted Aug 21, 2012·19 cites·10 claims
- 0393US7553517B1Method of applying a cerium diffusion coating to a metallic alloyUS ENERGY·Filed 2005·Granted Jun 30, 2009·19 cites·18 claims
- 0490US9181597B1Creep resistant high temperature martensitic steelHAWK JEFFREY A·Filed 2013·Granted Nov 10, 2015·8 cites·17 claims
- 0590US8317944B19 Cr— 1 Mo steel material for high temperature applicationJABLONSKI PAUL D·Filed 2011·Granted Nov 27, 2012·6 cites·14 claims
- 0689US10765775B2Implantable medical devices comprising bio-degradable alloys with enhanced degradation ratesBIO DG INC·Filed 2019·Granted Sep 8, 2020·6 cites·26 claims
- 0789US9012032B1MCrAlY bond coat with enhanced Yttrium layerJABLONSKI PAUL D·Filed 2013·Granted Apr 21, 2015·8 cites·18 claims
- 0887US9428825B1MCrAlY bond coat with enhanced yttriumJABLONSKI PAUL D·Filed 2012·Granted Aug 30, 2016·6 cites·21 claims
- 0985US12264383B2NiCrMoNb age hardenable alloy for creep-resistant high temperature applications, and methods of makingBATTELLE MEMORIAL INSTITUTE·Filed 2023·Granted Apr 1, 2025·0 cites·18 claims
- 1077US11827955B2NiCrMoNb age hardenable alloy for creep-resistant high temperature applications, and methods of makingBATTELLE MEMORIAL INSTITUTE·Filed 2021·Granted Nov 28, 2023·0 cites·17 claims
- 1177US2023248878A1Implantable medical devices comprising bio-degradable alloys with enhanced degradation ratesBIO DG INC·Filed 2022·Application pending·0 cites
- 1272US2025243564A1NiCrMoNb age hardenable alloy for creep-resistant high temperature applications, and methods of makingBATTELLE MEMORIAL INSTITUTE·Filed 2025·Application pending·0 cites
- 1370US11478570B2Implantable medical devices comprising bio-degradable alloys with enhanced degradation ratesBIO DG INC·Filed 2020·Granted Oct 25, 2022·0 cites·16 claims
- 1461US5226947ANiobium-titanium superconductors produced by powder metallurgy having artificial flux pinning centersWISCONSIN ALUMNI RES FOUND·Filed 1992·Granted Jul 13, 1993·21 cites·16 claims
- 1561US2023383382A1NiCrCoMoW Age Hardenable Alloy for Creep-Resistant High Temperature Applications, and Methods of MakingBATTELLE MEMORIAL INSTITUTE·Filed 2023·Application pending·0 cites
- 1659US11453051B2Creep resistant Ni-based superalloy casting and method of manufacture for advanced high-temperature applicationsUS ENERGY·Filed 2021·Granted Sep 27, 2022·0 cites·19 claims
- 1759US2014271768A1Implantable medical devices comprising bio-degradable alloys with enhanced degradation ratesBIO DG INC·Filed 2014·Application pending·0 cites
- 1856US11466344B2High-performance corrosion-resistant high-entropy alloysUS ENERGY·Filed 2020·Granted Oct 11, 2022·0 cites·17 claims
- 1944US2018226659A1Fuel cell with thermal energy storage for flexibility in hybridsUS ENERGY·Filed 2018·Application pending·0 cites
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