Research output: Contribution to journal › Article › peer-review
Structural-Phase State and Mechanical Properties of a Laser Cladding Titanium Matrix Composite Based on Ti64 Alloy and TiB2 Ceramics. / Fomin, V. M.; Malikov, A. G.; Golyshev, A. A. et al.
In: Physical Mesomechanics, Vol. 27, No. 1, 20.02.2024, p. 1-15.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Structural-Phase State and Mechanical Properties of a Laser Cladding Titanium Matrix Composite Based on Ti64 Alloy and TiB2 Ceramics
AU - Fomin, V. M.
AU - Malikov, A. G.
AU - Golyshev, A. A.
AU - Bulina, N. V.
AU - Gulov, M. A.
AU - Vitoshkin, I. E.
AU - Brusentseva, T. A.
AU - Filippov, A. A.
AU - Mishin, A. V.
N1 - The work was supported by the Russian Science Foundation, Grant No. 21-19-00733
PY - 2024/2/20
Y1 - 2024/2/20
N2 - Abstract: The paper presents experimental studies on laser cladding synthesis of a titanium matrix composite based on Ti64 titanium alloy and TiB2 ceramic reinforcement. The weight percentage of TiB2 ceramics in the composite was 5, 10 and 15%. The phase composition of the resulting materials was analyzed by standard X-ray diffraction and synchrotron X-ray diffraction. It was found that the structure of the titanium matrix composite with 5 wt % ceramics consists of TiB nanowhiskers, and that of samples with higher ceramic content exhibits TiB whiskers with a width of several micrometers. The addition of TiB2 ceramics increases Young’s modulus, nano- and microhardness of composite samples compared to Ti64 alloy. The indentation method was used to study the formation of a phase that is different from TiB2 ceramics and TiB microwhiskers and has elastic properties exceeding the elastic properties of the original Ti64 matrix phase. Analytical predictions showed an increase in the effective elastic properties of the formed heterogeneous material with the predicted new phase. It was also found that a lower friction coefficient can be achieved by forming a structure with nanowhiskers, while higher Young’s modulus and microhardness can be obtained by forming a structure with microwhiskers.
AB - Abstract: The paper presents experimental studies on laser cladding synthesis of a titanium matrix composite based on Ti64 titanium alloy and TiB2 ceramic reinforcement. The weight percentage of TiB2 ceramics in the composite was 5, 10 and 15%. The phase composition of the resulting materials was analyzed by standard X-ray diffraction and synchrotron X-ray diffraction. It was found that the structure of the titanium matrix composite with 5 wt % ceramics consists of TiB nanowhiskers, and that of samples with higher ceramic content exhibits TiB whiskers with a width of several micrometers. The addition of TiB2 ceramics increases Young’s modulus, nano- and microhardness of composite samples compared to Ti64 alloy. The indentation method was used to study the formation of a phase that is different from TiB2 ceramics and TiB microwhiskers and has elastic properties exceeding the elastic properties of the original Ti64 matrix phase. Analytical predictions showed an increase in the effective elastic properties of the formed heterogeneous material with the predicted new phase. It was also found that a lower friction coefficient can be achieved by forming a structure with nanowhiskers, while higher Young’s modulus and microhardness can be obtained by forming a structure with microwhiskers.
KW - Young’s modulus
KW - laser surface cladding
KW - nano- and microhardness
KW - synchrotron radiation
KW - titanium matrix composites
KW - wear resistance
UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001160093200001
UR - https://www.mendeley.com/catalogue/889d0575-7641-371c-9371-27a9d58c0898/
U2 - 10.1134/S1029959924010016
DO - 10.1134/S1029959924010016
M3 - Article
VL - 27
SP - 1
EP - 15
JO - Physical Mesomechanics
JF - Physical Mesomechanics
SN - 1029-9599
IS - 1
ER -
ID: 61235558