Max Planck Institute for Sustainable Materials

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Publications of H. Sato

All genres

Journal Article (2)

1.

Journal Article

Sato, H.; Zaefferer, S.: A study on the formation mechanisms of butterfly-type martensite in Fe–30% Ni alloy using EBSD-based orientation microscopy. Acta Materialia 57 (6), pp. 1931 - 1937 (2009)

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2.

Journal Article

Sato, H.; Zaefferer, S.; Watanabe, Y.: In-situ Observation of Butterfly-type Martensite in Fe-30mass%Ni Alloy during Tensile Test Using High-resolution EBSD. ISIJ International 49, pp. 1784 - 1791 (2009)

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Talk (3)

3.

Talk

Zaefferer, S.; Sato, H.: Investigation of the formation mechanism of martensite plates in Fe-30%Ni by a high resolution orientation microscopy in SEM. ESOMAT 2006, Bochum (2006)

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4.

Talk

Sato, H.; Zaefferer, S.: A study on the crystal orientation relationship of butterfly martensite in an Fe30 % Ni alloy by 3-D EBSD-based orientation microscopy. Microscopy Conference 2005, Davos, Switzerland (2005)

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5.

Talk

Sato, H.; Zaefferer, S.: 3D-analysis of the crystal orientation relationship and growth process of lenticular martensite in Fe–30mass%Ni alloy. DPG Frühjahrstagung, Berlin, Germany (2005)

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Scientist

Image of Reza Hosseinabadi

Reza Hosseinabadi

Former member sek-sn@...

Group Leader

Image of Dr. James Paul Best

Dr. James Paul Best

Former member, Guest Group Leader j.best@...

Image of Prof. Dr. Christoph Kirchlechner

Prof. Dr. Christoph Kirchlechner

Former member sek-sn@...

Publication References

N.V. Malyar, B. Grabowski, G. Dehm, C. Kirchlechner

Dislocation slip transmission through a coherent Σ3{111} copper twin boundary: Strain rate sensitivity, activation volume and strength distribution function

Acta Materialia, Volume 161, December 2018, Pages 412-419

Nataliya Malyar, Jean-Sebastien Micha, Gerhard Dehm, and Christoph Kirchlechner, "Dislocation-twin boundary interaction in small scale Cu bi-crystals loaded in different crystallographic directions," Acta Materialia 129, 91-97 (2017).

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Nataliya Malyar, Jean-Sebastien Micha, Gerhard Dehm, and Christoph Kirchlechner, "Size effect in bi-crystalline micropillars with a penetrable high angle grain boundary," Acta Materialia 129, 312-320 (2017).

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N.V. Malyar, G. Dehm, C. Kirchlechner

The strain rate sensitivity of dislocation slip transfer through a coherent S3{111} twin boundary

Scripta Materialia (in preparation) 2017

Peter Julian Imrich, Christoph Kirchlechner, Daniel Kiener, and Gerhard Dehm, "Internal and external stresses: in situ TEM compression of Cu bicrystals containing a twin boundary," Scripta Materialia 100, 94-97 (2015).

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Peter Julian Imrich, Christoph Kirchlechner, and Gerhard Dehm, "Influence of inclined twin boundaries on the deformation behavior of Cu micropillars," Materials Science and Engineering A: Structural Materials Properties Microstructure and Processing 642, 65-70 (2015).

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Peter Julian Imrich, Christoph Kirchlechner, Daniel Kiener, and Gerhard Dehm, "In situ TEM microcompression of single and bicrystalline samples: insights and limitations," JOM-Journal of the Minerals Metals & Materials Society 67 (8), 1704-1712 (2015).

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Peter Julian Imrich, Christoph Kirchlechner, Christian Motz, and Gerhard Dehm, "Differences in deformation behavior of bicrystalline Cu micropillars containing a twin boundary or a large-angle grain boundary," Acta Materialia 73, 240-250 (2014).

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