Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue

TANG, Wusheng ;NIE, YuFei ;ZHANG, Zhuo ;LIN, Wei ;RONG, YanKai ;SHI, Yaochen ;DING, Ning .
Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue. 
Articles in Press, [S.l.], v. 0, n.0, p. , march 2025. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/article/analysis-and-research-on-surface-vibration-damping-performance-of-friction-sub-surface-based-on-groove-textrue/>. Date accessed: 09 jun. 2025. 
doi:http://dx.doi.org/.

Tang, W., Nie, Y., Zhang, Z., Lin, W., Rong, Y., Shi, Y., & Ding, N.
(0).
Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue.
Articles in Press, 0(0), .
doi:http://dx.doi.org/

@article{.,
	author = {Wusheng  Tang and YuFei  Nie and Zhuo  Zhang and Wei  Lin and YanKai  Rong and Yaochen  Shi and Ning  Ding},
	title = {Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue},
	journal = {Articles in Press},
	volume = {0},
	number = {0},
	year = {0},
	keywords = {Groove textrue; Friction characteristics; Numerical analysis; Velocity; },
	abstract = {In order to investigate the effect of surface texture on the surface vibration characteristics of the friction pair, this study utilized laser marking technology to machine a groove texture on the surface of 45-steel to form a friction pair with neoprene material. The finite element analysis software ABAQUS/Explicit (explicit dynamic solver) is used to numerically analyze the friction process of the two at different speeds, and the results show that: the ability of the groove textrue to reduce the strength and continuity of the contact stress concentration on the surface of the friction plate is enhanced with the increase in speed, and at the same time, the contact stress is diffused from the front corner of the friction block to the rear corner faster, and the concentration is better suppressed in the front corner. At the same time, the friction test on the HCM-5 reciprocating friction and wear tester is conducted on the 45 steel-neoprene friction pair with different speeds, and the results show that the weakening effect of groove textrue on the surface vibration of the friction pair is gradually enhanced with the increase of speed, and the reduction of energy density at the main frequency of the friction pair surface is more and more obvious. This corresponds to the numerical analysis results, which illustrates the influence of speed on the groove textrue to improve the surface vibration characteristics of the friction pair.},
	issn = {0039-2480},	pages = {},	doi = {},
	url = {https://www.sv-jme.eu/article/analysis-and-research-on-surface-vibration-damping-performance-of-friction-sub-surface-based-on-groove-textrue/}
}

Tang, W.,Nie, Y.,Zhang, Z.,Lin, W.,Rong, Y.,Shi, Y.,Ding, N.
0 March 0. Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue. Articles in Press. [Online] 0:0

%A Tang, Wusheng 
%A Nie, YuFei 
%A Zhang, Zhuo 
%A Lin, Wei 
%A Rong, YanKai 
%A Shi, Yaochen 
%A Ding, Ning 
%D 0
%T Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue
%B 0
%9 Groove textrue; Friction characteristics; Numerical analysis; Velocity; 
%! Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue
%K Groove textrue; Friction characteristics; Numerical analysis; Velocity; 
%X In order to investigate the effect of surface texture on the surface vibration characteristics of the friction pair, this study utilized laser marking technology to machine a groove texture on the surface of 45-steel to form a friction pair with neoprene material. The finite element analysis software ABAQUS/Explicit (explicit dynamic solver) is used to numerically analyze the friction process of the two at different speeds, and the results show that: the ability of the groove textrue to reduce the strength and continuity of the contact stress concentration on the surface of the friction plate is enhanced with the increase in speed, and at the same time, the contact stress is diffused from the front corner of the friction block to the rear corner faster, and the concentration is better suppressed in the front corner. At the same time, the friction test on the HCM-5 reciprocating friction and wear tester is conducted on the 45 steel-neoprene friction pair with different speeds, and the results show that the weakening effect of groove textrue on the surface vibration of the friction pair is gradually enhanced with the increase of speed, and the reduction of energy density at the main frequency of the friction pair surface is more and more obvious. This corresponds to the numerical analysis results, which illustrates the influence of speed on the groove textrue to improve the surface vibration characteristics of the friction pair.
%U https://www.sv-jme.eu/article/analysis-and-research-on-surface-vibration-damping-performance-of-friction-sub-surface-based-on-groove-textrue/
%0 Journal Article
%R 
%& 
%P 1
%J Articles in Press
%V 0
%N 0
%@ 0039-2480
%8 2025-03-10
%7 2025-03-10

Tang, Wusheng, YuFei  Nie, Zhuo  Zhang, Wei  Lin, YanKai  Rong, Yaochen  Shi, & Ning  Ding.
"Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue." Articles in Press [Online], 0.0 (0): . Web.  09 Jun. 2025

TY  - JOUR
AU  - Tang, Wusheng 
AU  - Nie, YuFei 
AU  - Zhang, Zhuo 
AU  - Lin, Wei 
AU  - Rong, YanKai 
AU  - Shi, Yaochen 
AU  - Ding, Ning 
PY  - 0
TI  - Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue
JF  - Articles in Press
DO  - 
KW  - Groove textrue; Friction characteristics; Numerical analysis; Velocity; 
N2  - In order to investigate the effect of surface texture on the surface vibration characteristics of the friction pair, this study utilized laser marking technology to machine a groove texture on the surface of 45-steel to form a friction pair with neoprene material. The finite element analysis software ABAQUS/Explicit (explicit dynamic solver) is used to numerically analyze the friction process of the two at different speeds, and the results show that: the ability of the groove textrue to reduce the strength and continuity of the contact stress concentration on the surface of the friction plate is enhanced with the increase in speed, and at the same time, the contact stress is diffused from the front corner of the friction block to the rear corner faster, and the concentration is better suppressed in the front corner. At the same time, the friction test on the HCM-5 reciprocating friction and wear tester is conducted on the 45 steel-neoprene friction pair with different speeds, and the results show that the weakening effect of groove textrue on the surface vibration of the friction pair is gradually enhanced with the increase of speed, and the reduction of energy density at the main frequency of the friction pair surface is more and more obvious. This corresponds to the numerical analysis results, which illustrates the influence of speed on the groove textrue to improve the surface vibration characteristics of the friction pair.
UR  - https://www.sv-jme.eu/article/analysis-and-research-on-surface-vibration-damping-performance-of-friction-sub-surface-based-on-groove-textrue/

@article{{}{.},
	author = {Tang, W., Nie, Y., Zhang, Z., Lin, W., Rong, Y., Shi, Y., Ding, N.},
	title = {Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue},
	journal = {Articles in Press},
	volume = {0},
	number = {0},
	year = {0},
	doi = {},
	url = {https://www.sv-jme.eu/article/analysis-and-research-on-surface-vibration-damping-performance-of-friction-sub-surface-based-on-groove-textrue/}
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TY  - JOUR
AU  - Tang, Wusheng 
AU  - Nie, YuFei 
AU  - Zhang, Zhuo 
AU  - Lin, Wei 
AU  - Rong, YanKai 
AU  - Shi, Yaochen 
AU  - Ding, Ning 
PY  - 2025/03/10
TI  - Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue
JF  - Articles in Press; Vol 0, No 0 (0): Articles in Press
DO  - 
KW  - Groove textrue, Friction characteristics, Numerical analysis, Velocity, 
N2  - In order to investigate the effect of surface texture on the surface vibration characteristics of the friction pair, this study utilized laser marking technology to machine a groove texture on the surface of 45-steel to form a friction pair with neoprene material. The finite element analysis software ABAQUS/Explicit (explicit dynamic solver) is used to numerically analyze the friction process of the two at different speeds, and the results show that: the ability of the groove textrue to reduce the strength and continuity of the contact stress concentration on the surface of the friction plate is enhanced with the increase in speed, and at the same time, the contact stress is diffused from the front corner of the friction block to the rear corner faster, and the concentration is better suppressed in the front corner. At the same time, the friction test on the HCM-5 reciprocating friction and wear tester is conducted on the 45 steel-neoprene friction pair with different speeds, and the results show that the weakening effect of groove textrue on the surface vibration of the friction pair is gradually enhanced with the increase of speed, and the reduction of energy density at the main frequency of the friction pair surface is more and more obvious. This corresponds to the numerical analysis results, which illustrates the influence of speed on the groove textrue to improve the surface vibration characteristics of the friction pair.
UR  - https://www.sv-jme.eu/article/analysis-and-research-on-surface-vibration-damping-performance-of-friction-sub-surface-based-on-groove-textrue/

Tang, Wusheng, Nie, YuFei, Zhang, Zhuo, Lin, Wei, Rong, YanKai, Shi, Yaochen, AND Ding, Ning.
"Analysis and research on surface vibration damping performance of friction sub-surface based on groove textrue" Articles in Press [Online], Volume 0 Number 0 (10 March 2025)