Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification

CHEN, Qi ;LIU, YOongping ;DONG, Changbin .
Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification. 
Articles in Press, [S.l.], v. 0, n.0, p. , april 2025. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/article/tooth-contact-analysis-of-involute-beveloid-gear-based-on-higher-order-curve-axial-modification/>. Date accessed: 19 apr. 2025. 
doi:http://dx.doi.org/.

Chen, Q., Liu, Y., & Dong, C.
(0).
Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification.
Articles in Press, 0(0), .
doi:http://dx.doi.org/

@article{.,
	author = {Qi  Chen and YOongping  Liu and Changbin  Dong},
	title = {Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification},
	journal = {Articles in Press},
	volume = {0},
	number = {0},
	year = {0},
	keywords = {involute beveloid gear; higher order curve axial modification; tooth contact analysis; transmission error; assembly error; },
	abstract = {This study investigates the tooth flank contact characteristics of a beveloid gear pair through the lens of higher-order curve tooth modification of the involute beveloid gear. The machining coordinate system of the modified gear pair is established, and its tooth surface equations are derived based on the principle of gear meshing and coordinate transformation. In this context, a contact analysis of the modified gear is conducted, examining the impact of varying parameters on the contact trace and contact ellipses, as well as the implications for meshing characteristics in the presence of assembly errors. The findings indicate that the contact form of the high-order curve axial modification of the beveloid gear pair is point contact. Furthermore, the maximum modification amount and the order of the modification curve influence the meshing performance of the beveloid gear pair. Additionally, the beveloid gear pair demonstrates enhanced tolerance to the centre distance and the axis crossed error, while exhibiting reduced tolerance to the axis intersected error.},
	issn = {0039-2480},	pages = {},	doi = {},
	url = {https://www.sv-jme.eu/article/tooth-contact-analysis-of-involute-beveloid-gear-based-on-higher-order-curve-axial-modification/}
}

Chen, Q.,Liu, Y.,Dong, C.
0 April 0. Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification. Articles in Press. [Online] 0:0

%A Chen, Qi 
%A Liu, YOongping 
%A Dong, Changbin 
%D 0
%T Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification
%B 0
%9 involute beveloid gear; higher order curve axial modification; tooth contact analysis; transmission error; assembly error; 
%! Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification
%K involute beveloid gear; higher order curve axial modification; tooth contact analysis; transmission error; assembly error; 
%X This study investigates the tooth flank contact characteristics of a beveloid gear pair through the lens of higher-order curve tooth modification of the involute beveloid gear. The machining coordinate system of the modified gear pair is established, and its tooth surface equations are derived based on the principle of gear meshing and coordinate transformation. In this context, a contact analysis of the modified gear is conducted, examining the impact of varying parameters on the contact trace and contact ellipses, as well as the implications for meshing characteristics in the presence of assembly errors. The findings indicate that the contact form of the high-order curve axial modification of the beveloid gear pair is point contact. Furthermore, the maximum modification amount and the order of the modification curve influence the meshing performance of the beveloid gear pair. Additionally, the beveloid gear pair demonstrates enhanced tolerance to the centre distance and the axis crossed error, while exhibiting reduced tolerance to the axis intersected error.
%U https://www.sv-jme.eu/article/tooth-contact-analysis-of-involute-beveloid-gear-based-on-higher-order-curve-axial-modification/
%0 Journal Article
%R 
%& 
%P 1
%J Articles in Press
%V 0
%N 0
%@ 0039-2480
%8 2025-04-09
%7 2025-04-09

Chen, Qi, YOongping  Liu, & Changbin  Dong.
"Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification." Articles in Press [Online], 0.0 (0): . Web.  19 Apr. 2025

TY  - JOUR
AU  - Chen, Qi 
AU  - Liu, YOongping 
AU  - Dong, Changbin 
PY  - 0
TI  - Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification
JF  - Articles in Press
DO  - 
KW  - involute beveloid gear; higher order curve axial modification; tooth contact analysis; transmission error; assembly error; 
N2  - This study investigates the tooth flank contact characteristics of a beveloid gear pair through the lens of higher-order curve tooth modification of the involute beveloid gear. The machining coordinate system of the modified gear pair is established, and its tooth surface equations are derived based on the principle of gear meshing and coordinate transformation. In this context, a contact analysis of the modified gear is conducted, examining the impact of varying parameters on the contact trace and contact ellipses, as well as the implications for meshing characteristics in the presence of assembly errors. The findings indicate that the contact form of the high-order curve axial modification of the beveloid gear pair is point contact. Furthermore, the maximum modification amount and the order of the modification curve influence the meshing performance of the beveloid gear pair. Additionally, the beveloid gear pair demonstrates enhanced tolerance to the centre distance and the axis crossed error, while exhibiting reduced tolerance to the axis intersected error.
UR  - https://www.sv-jme.eu/article/tooth-contact-analysis-of-involute-beveloid-gear-based-on-higher-order-curve-axial-modification/

@article{{}{.},
	author = {Chen, Q., Liu, Y., Dong, C.},
	title = {Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification},
	journal = {Articles in Press},
	volume = {0},
	number = {0},
	year = {0},
	doi = {},
	url = {https://www.sv-jme.eu/article/tooth-contact-analysis-of-involute-beveloid-gear-based-on-higher-order-curve-axial-modification/}
}

TY  - JOUR
AU  - Chen, Qi 
AU  - Liu, YOongping 
AU  - Dong, Changbin 
PY  - 2025/04/09
TI  - Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification
JF  - Articles in Press; Vol 0, No 0 (0): Articles in Press
DO  - 
KW  - involute beveloid gear, higher order curve axial modification, tooth contact analysis, transmission error, assembly error, 
N2  - This study investigates the tooth flank contact characteristics of a beveloid gear pair through the lens of higher-order curve tooth modification of the involute beveloid gear. The machining coordinate system of the modified gear pair is established, and its tooth surface equations are derived based on the principle of gear meshing and coordinate transformation. In this context, a contact analysis of the modified gear is conducted, examining the impact of varying parameters on the contact trace and contact ellipses, as well as the implications for meshing characteristics in the presence of assembly errors. The findings indicate that the contact form of the high-order curve axial modification of the beveloid gear pair is point contact. Furthermore, the maximum modification amount and the order of the modification curve influence the meshing performance of the beveloid gear pair. Additionally, the beveloid gear pair demonstrates enhanced tolerance to the centre distance and the axis crossed error, while exhibiting reduced tolerance to the axis intersected error.
UR  - https://www.sv-jme.eu/article/tooth-contact-analysis-of-involute-beveloid-gear-based-on-higher-order-curve-axial-modification/

Chen, Qi, Liu, YOongping, AND Dong, Changbin.
"Tooth contact analysis of involute beveloid gear based on higher-order curve axial modification" Articles in Press [Online], Volume 0 Number 0 (09 April 2025)