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Ruben Bjørge

Research Scientist

Ruben Bjørge

Research Scientist

Ruben Bjørge
Phone: 970 62 582
Department: Materials and Nanotechnology
Office: Trondheim

Publications and responsibilities

Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1821659

Cement nanocomposites with carbon nanofibers (CNFs) are electrically conductive and sensitive to mechanical loads. These features make them useful for sensing applications. The conductive and load sensing properties are well known to be dependent on carbon nanofiber content; however, much less is kn...

Authors Gawel Kamila Taghipour Ali Bjørge Ruben Wenner Sigurd Gawel Bartlomiej Ghaderi Amir Cerasi Pierre
Year 2020
Type Journal publication
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1813459

The development of wear resistant materials for drill-bit inserts are of primary importance for efficient percussive drilling in hard abrasive rock. To speed up the development of enhanced wear resistance materials, the laboratory tests are fundamental to evaluate the material performance before pro...

Authors Saai Afaf Bjørge Ruben Dahl Filip Erik Bo Antonov Maksim Kane Pascal-Alexandre Diop Jean-Baptiste Ojala Niko
Year 2020
Type Journal publication
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1813341

The image contrast of sheared needle‐like urn:x-wiley:00222720:media:jmi12901:jmi12901-math-0001 precipitates in the Al‐Mg‐Si alloy system is investigated with respect to shear‐plane positions, the number of shear‐planes, and the active matrix slip systems through multislice transmission electron mi...

Authors Christiansen Emil Ringdalen Inga Gudem Bjørge Ruben Marioara Calin Daniel Holmestad Randi
Year 2020
Type Journal publication
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1779698

Permanent CO2 sequestration relies on avoiding leakage from the reservoir through the caprock. The highest leakage risk resides at the wells penetrating the reservoir, in particular at the boundary between cement sheath and formation. Models quantifying the risk of cement debonding require the cemen...

Authors Stroisz Anna Magdalena Gawel Kamila Bjørge Ruben Cerasi Pierre
Year 2019
Type Part of a book/report
Publication
https://www.sintef.no/en/publications/publication/?pubid=CRIStin+1750479

Permanent CO2 sequestration relies on avoiding leakage from the reservoir through the caprock. The highest leakage risk resides at the wells penetrating the reservoir, in particular at the boundary between cement sheath and formation. Models quantifying the risk of cement debonding require the cemen...

Authors Stroisz Anna Magdalena Gawel Kamila Bjørge Ruben Cerasi Pierre
Year 2019
Type Conference lecture and academic presentation