Dynamic response of TiC-steel, ceramic-metal composite.

Bat-Zion Klein; Nahum Frage; Moshe Dariel; Eugene Zaretsky

Dynamic response of TiC-steel, ceramic-metal composite.

Bat-Zion Klein, Nahum Frage, Moshe Dariel, Eugene Zaretsky

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The dynamic response of a TiC-carbon steel, ceramic-metal composite, was studied in planar impact experiments using a copper impactor with velocity in the 100 to 500 m/sec range. The composites were prepared by pressureless infiltration of ceramic preforms with molten steel. The metallic component had either a pearlitic or a martensitic microstructure, as determined by appropriate heat treatments. A fully dense TiC sample and a 1060 steel specimen in the pearlitic and martensitic states were used as reference samples. The values of HEL and spall strength were obtained from the VISAR records of free surface velocity of the impacted samples. Quenching the standard steel and the composite increased the HEL and the spall strength. The increased tensile strength can be attributed to the presence of the increased strength of the metallic component that prevents the development of cracks during the compressive part of the loading-unloading cycle. This conclusion is consistent with static rupture stress measurement results.

Original language	English GB
Title of host publication	Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society
State	Published - 1 Jun 2001
Externally published	Yes

Publication series

Name	American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society

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http://adsabs.harvard.edu/abs/2001APS..SHK.L5002K

Cite this

Klein, B-Z., Frage, N., Dariel, M., & Zaretsky, E. (2001). Dynamic response of TiC-steel, ceramic-metal composite. In Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society (American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society). http://adsabs.harvard.edu/abs/2001APS..SHK.L5002K

Klein, Bat-Zion ; Frage, Nahum ; Dariel, Moshe et al. / Dynamic response of TiC-steel, ceramic-metal composite. Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society. 2001. (American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society).

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title = "Dynamic response of TiC-steel, ceramic-metal composite.",

abstract = "The dynamic response of a TiC-carbon steel, ceramic-metal composite, was studied in planar impact experiments using a copper impactor with velocity in the 100 to 500 m/sec range. The composites were prepared by pressureless infiltration of ceramic preforms with molten steel. The metallic component had either a pearlitic or a martensitic microstructure, as determined by appropriate heat treatments. A fully dense TiC sample and a 1060 steel specimen in the pearlitic and martensitic states were used as reference samples. The values of HEL and spall strength were obtained from the VISAR records of free surface velocity of the impacted samples. Quenching the standard steel and the composite increased the HEL and the spall strength. The increased tensile strength can be attributed to the presence of the increased strength of the metallic component that prevents the development of cracks during the compressive part of the loading-unloading cycle. This conclusion is consistent with static rupture stress measurement results.",

author = "Bat-Zion Klein and Nahum Frage and Moshe Dariel and Eugene Zaretsky",

year = "2001",

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language = "אנגלית",

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Klein, B-Z, Frage, N , Dariel, M & Zaretsky, E 2001, Dynamic response of TiC-steel, ceramic-metal composite. in Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society. American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society. <http://adsabs.harvard.edu/abs/2001APS..SHK.L5002K>

Dynamic response of TiC-steel, ceramic-metal composite. / Klein, Bat-Zion; Frage, Nahum ; Dariel, Moshe et al.
Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society. 2001. (American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Dynamic response of TiC-steel, ceramic-metal composite.

AU - Klein, Bat-Zion

AU - Frage, Nahum

AU - Dariel, Moshe

AU - Zaretsky, Eugene

PY - 2001/6/1

Y1 - 2001/6/1

N2 - The dynamic response of a TiC-carbon steel, ceramic-metal composite, was studied in planar impact experiments using a copper impactor with velocity in the 100 to 500 m/sec range. The composites were prepared by pressureless infiltration of ceramic preforms with molten steel. The metallic component had either a pearlitic or a martensitic microstructure, as determined by appropriate heat treatments. A fully dense TiC sample and a 1060 steel specimen in the pearlitic and martensitic states were used as reference samples. The values of HEL and spall strength were obtained from the VISAR records of free surface velocity of the impacted samples. Quenching the standard steel and the composite increased the HEL and the spall strength. The increased tensile strength can be attributed to the presence of the increased strength of the metallic component that prevents the development of cracks during the compressive part of the loading-unloading cycle. This conclusion is consistent with static rupture stress measurement results.

AB - The dynamic response of a TiC-carbon steel, ceramic-metal composite, was studied in planar impact experiments using a copper impactor with velocity in the 100 to 500 m/sec range. The composites were prepared by pressureless infiltration of ceramic preforms with molten steel. The metallic component had either a pearlitic or a martensitic microstructure, as determined by appropriate heat treatments. A fully dense TiC sample and a 1060 steel specimen in the pearlitic and martensitic states were used as reference samples. The values of HEL and spall strength were obtained from the VISAR records of free surface velocity of the impacted samples. Quenching the standard steel and the composite increased the HEL and the spall strength. The increased tensile strength can be attributed to the presence of the increased strength of the metallic component that prevents the development of cracks during the compressive part of the loading-unloading cycle. This conclusion is consistent with static rupture stress measurement results.

M3 - פרסום בספר כנס

T3 - American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society

BT - Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society

ER -

Klein B-Z, Frage N , Dariel M , Zaretsky E. Dynamic response of TiC-steel, ceramic-metal composite. In Edit American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society. 2001. (American Physical Society, Shock Compression of Condensed Matter Meeting, June 24-29, 2001 Renaissance Waverly Hotel, Atlanta, Georgia Bulletin of the American Physical Society).

Dynamic response of TiC-steel, ceramic-metal composite.

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