Based on LS-DYNA Dynamic Simulation Analysis in Electroplated CBN Hard Gear-Honing Processing

2011 ◽  
Vol 305 ◽  
pp. 251-254 ◽  
Author(s):  
Man Dong Zhang ◽  
Ming Lv
Keyword(s):  
Simulation Analysis ◽  
Form Factors ◽  
Tooth Profile ◽  
Von Mises Stress ◽  
Tooth Surface ◽  
Internal Factors ◽  
Gear Honing ◽  
Von Mises ◽  
Profile Errors ◽  
Tooth Profile Errors

In general, using electroplating CBN hard gear-honing-tools with standard involute, the vicinity of the workpiece tooth pitch circle will be a “mid concave” error, the root of the tooth will be a “dig root” error. For the form factors of the error are more complicated, it is difficult to calculate errors with an exact analytical method. To this end, by the help of Pro/E and ANSYS/LS-DYNA software, the analysis of electroplating CBN hard honing process was dynamically simulated. Through picking up the datum from analysis results, the von mises stress distribution curve was drafted along engaging points on the tooth surface, this revealed the internal factors of the tooth profile error formation, also determined the location and extent of the tooth profile errors. It is provided a theoretical basis to make the gear-honing-tool tooth surface modification as possible, and the result is consistent with the actual processing.

The Deformation Analysis on Tooth Profiles with Electroplated CBN Hard Gear-Honing-Tools

2012 ◽  
Vol 426 ◽  
pp. 159-162 ◽  
Author(s):  
Man Dong Zhang ◽  
H.H. Zhao ◽  
Ming Lv
Keyword(s):  
Gear Tooth ◽  
Tooth Profile ◽  
Tooth Surface ◽  
Deformation Analysis ◽  
Normal Deformation ◽  
Gear Honing ◽  
Important Means ◽  
Profile Errors ◽  
Tooth Profile Errors ◽  
Exact Analytical Method

Using electroplating CBN hard gear-honing-tools with standard involute, the vicinity of the workpiece tooth pitch circle will be a “mid concave” error, the root of the tooth will be a “dig root” error generally. For the formation factors of the error are more complex, it is difficult to calculate errors with an exact analytical method. To this end, by using Pro/E and ANSYS software, the contact analysis of electroplating CBN hard honing process was simulated. The honed tooth surface normal deformation analysis was the important means to determine extent of tooth profile error, through the normal deformation analysis based on simulation results, the location and extent of normal deformation was determined. Practice shows that the location and extent of the normal deformation has been a certain relationship with processing gear tooth profile errors. It is provided a theoretical basis to make the gear-honing tooth surface modification as possible.

Tooth Surface Fatigue of AISI9310 Steel Spur Gears

1992 ◽  
Author(s):  
H. Kotorii
Keyword(s):  
Service Life ◽  
Surface Hardness ◽  
Load Cycle ◽  
Tooth Profile ◽  
Tooth Surface ◽  
Spur Gears ◽  
Gear Teeth ◽  
Surface Fatigue ◽  
Profile Errors ◽  
Tooth Profile Errors

Abstract With a JIS 0 class Spur Gears of AISI9310 steel, module 4, presure angle 25 degree tooth profile, the numbers of pinion teeth 21 / gear teeth 29 carburized and tooth surface hardness HRc 59, the relationships of the load and the service life (S-N) diagram were investigated by running test on the power-circulated type gear tester. MIL-L-23699 equivalent synthetic oil at 50° C were fed at a ratio of 0.8 l/min and circumferential velocity of 8.8 m/sec. Also the running performance of the gears, variation of tooth profile errors, affairs of damage, etc. were examined. Types of tooth surface fatigue mere scoring, spalling, or micropitting. A durability limit of Hertz-stress was assumed to be around 2GPa at the load cycle of 108.

Research on the theoretical tooth profile errors of gears machined by skiving

2016 ◽  
Vol 97 ◽  
pp. 1-11 ◽  
Author(s):  
Zheng Guo ◽  
Shi-Min Mao ◽  
Xiao-E Li ◽  
Zhong-Yi Ren
Keyword(s):  
Tooth Profile ◽  
Profile Errors ◽  
Tooth Profile Errors

An investigation into the effect of tooth profile errors on gear rattle

2010 ◽  
Vol 329 (17) ◽  
pp. 3495-3506 ◽  
Author(s):  
J.R. Ottewill ◽  
S.A. Neild ◽  
R.E. Wilson
Keyword(s):  
Tooth Profile ◽  
Profile Errors ◽  
Tooth Profile Errors ◽  
Gear Rattle

A distributed dynamic mesh model of a helical gear pair with tooth profile errors

2018 ◽  
Vol 25 (2) ◽  
pp. 287-303 ◽  
Author(s):  
Qi-bin Wang ◽  
Hong-bo Ma ◽  
Xian-guang Kong ◽  
Yi-min Zhang
Keyword(s):  
Helical Gear ◽  
Tooth Profile ◽  
Dynamic Mesh ◽  
Gear Pair ◽  
Mesh Model ◽  
Profile Errors ◽  
Tooth Profile Errors ◽  
Helical Gear Pair

Heat Dissipation Simulation Analysis of High Power LED via Heat Slug Geometry Variation

2014 ◽  
Vol 1082 ◽  
pp. 344-347
Author(s):  
Vithyacharan Retnasamy ◽  
Zaliman Sauli ◽  
Rajendaran Vairavan ◽  
Hussin Kamarudin ◽  
Mukhzeer Mohamad Shahimin ◽  
...  
Keyword(s):  
High Power ◽  
Heat Dissipation ◽  
Simulation Analysis ◽  
Life Time ◽  
Junction Temperature ◽  
Von Mises Stress ◽  
Potential Development ◽  
High Power Led ◽  
Superior Surface ◽  
Von Mises

High power LEDs are currently being plagued by heat dissipation challenges due to its high power density thus limiting its further potential development and fulfillment. Exercising proper selection of packaging component could improve the life time of high power LED. In this work, the significance of the heat slug geometry on the heat dissipation of high power LED was addressed through simulation analysis. The heat slug geometries were varied in order to compare the heat dissipation of the high power LED. Ansys version 11 was utilized for the simulation. The heat dissipation of the high power LED was evaluated in terms of junction temperature, von Mises stress and thermal resistance. The key results of the analysis showed that a superior surface area is preferred for an enhanced heat dissipation of high power LED

scholarly journals Influence of tooth profile errors and subharmonic resonance in helical gears rattle

2015 ◽  
Vol 81 (822) ◽  
pp. 14-00416-14-00416
Author(s):  
Yutaka YOSHITAKE ◽  
Toshiyuki KOGA ◽  
Natsumi TAGAWA ◽  
Shintaro SOBU ◽  
Takahiro HARANO ◽  
...  
Keyword(s):  
Tooth Profile ◽  
Subharmonic Resonance ◽  
Helical Gears ◽  
Profile Errors ◽  
Tooth Profile Errors
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