Structural Design Technology for Brake Squeal Reduction Using Sensitivity Analysis.

Structural Design Technology for Brake Squeal Reduction Using Sensitivity Analysis.

Author(s):

Goto, Y.

Publication title:

28th Annual SAE 2010 Brake Colloquium & Exhibition : technical paper

Title of ser.:

Society of Automotive Engineers technical paper series

Ser. no.:

2010

Pub. Year:

2010

No.:

2010-01-1691

Paper no.:

2010-01-1691

Pages:

13

Pub. info.:

Warrendale, Penn.: Society of Automotive Engineers

ISSN:

01487191

Language:

English

Call no.:

S10400

Type:

Technical Paper

Details

TDL ID:	ZA00052111
Series ID:	PA00000058
Conf. info. (Name):	SAE Annual Brake Colloquium & Exhibition
Conf. info. (Number):	28th
Conf. info. (Venue):	Phoenix, AZ, USA
Conf. info. (Date):	2010.10.10-2010.10.13
Note for article:	28th Annual SAE 2010 Brake Colloquium & Exhibition, October 10-13, 2010, Sheraton Phoenix Downtown Hotel, Phoenix, Arizona, USA

Similar Items:

1 Technical Paper A Study of Reduction for Brake Squeal in Disc In-Plane Mode. Yokoyama, T., Matsushima, T. Society of Automotive Engineers	7 Technical Paper Brake Squeal Reduction Using Robust Design. Kapadnis, P., Im, K. Society of Automotive Engineers
2 Technical Paper FEM Analysis of Low-Frequency Disc Brake Squeal (In Case of Opposed Type Caliper) Matsushima,Toru, Nishiwaki,Masaaki, Masumo,Hiroyuki, Ito,Satoshi Society of Automotive Engineers	8 Technical Paper Brake Squeal Reduction Using Robust Design Kapadnis, Pravin, Im, Kee Society of Automotive Engineering, Inc.
3 Technical Paper FE Analysis of Low-frequency Disc Brake Squeal (In Case of Floating Type Caliper) Matsushima,Toru, Masumo,Hiroyuki, Ito,Satoshi, Nishiwaki,Massaki Society of Automotive Engineers	9 Technical Paper Optimization of Microturbine Aerodynamics Using CFD, Inverse Design and FEM Structural Analysis (2nd Report: Turbine Design). Watanabe, H., Okamoto, H., Goto, A. American Society of Mechanical Engineers
4 Technical Paper Pad Insulator Modeling for Brake Squeal Analysis. Mahajan, S.K., Denys, E., Bae, J-C., Shi, T.S., Im, K.H. Society of Automotive Engineers	10 Technical Paper Friction Coefficient Variation Mechanism under Wet Condition in Disk Brake (Variation Mechanism Contributing Wet Wear Debris) T. Matsumori, Y. Goto, N. Sugiura, K. Abe, Y. Osawa Society of Automotive Engineers
5 Technical Paper Complex Mode Analysis on Disc Brake Squeal and Design Improvement. Jun, H., Xue-Xun, G., Gang-Feng, T. Society of Automotive Engineers	11 Technical Paper Brake Squeal Analysis: A New Method for Predicting Limit Cycles Using the Constraint Harmonic Balance Method. Coudeyras, N., Nacivet, S., Sinou, J.-J. Society of Automotive Engineers
6 Technical Paper Analysis of Disk Brake Squeal Using Substructure Synthesis Method. Kaneda, T., Ishihara, K., Honda, H., Kokawa, M. Society of Automotive Engineers	12 Technical Paper First Order Analysis for Automotive Body Structure Design - Part 1: Overview and Applications. Nishigaki, H., Amago, T., Sugiura, H., Kojima, Y., Nishiwaki, S. Society of Automotive Engineers

1

2

3

4

5

6

7

8

9

10

11

12