Method for estimating noise performance of rolling tire
First Claim
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1. A computer-implemented method for estimating noise performance of a tire during rolling, comprising:
- defining a smooth road surface model in a computer, wherein the smooth road surface model is a finite element model of a smooth road surface,defining a rough road surface model in the computer, wherein the rough road surface model is a finite element model of a rough road surface,defining a tire model in the computer, wherein the tire model is a finite element model of the tire including a tread and grooves disposed in the tread,performing a rolling tire simulation by the computer by making calculations of the tire model contacting with the rough road surface model and rolling on the rough road surface model so as to obtain coordinates data on node points of the tire model appearing in the outer surface of the rolling tire model as time-series coordinates data of the outer surface of the rolling tire model deformed by contacting with the rough road surface model,defining a tire outer surface model in the computer by the time-series coordinates data obtained through the rolling tire simulation whereby the tire outer surface model is the outer surface of the tire model rolling on the rough road surface model,performing a noise simulation by the computer by setting the tire outer surface model on the smooth road surface model to simulate the tire outer surface model rolling on the smooth road surface model, and computing a physical quantity of a sound field defined in a space encompassing at least a ground contacting part of the tire outer surface model and a corresponding part of the smooth road surface model, andjudging whether the computed physical quantity is within an acceptable range or not, whereinif within the acceptable range, outputting data about the tire model based on which an actual tire is designed, andif outside the acceptable range, modifying the tire model in order to repeat the performing of the rolling tire simulation, the defining of the tire outer surface model, and the performing of the noise simulation, whereinduring performing the noise simulation, said ground contacting part of the tire outer surface model is always separated from the smooth road surface model by small distance so that a gap is formed between the tire outer surface model and the smooth road surface model, and said sound field is also defined in the gap, andthe rough road surface model is produced by shifting node points of the smooth road surface according to data on an actual rough road surface obtained by means of three dimensional scanning.
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Abstract
A method for simulating a rolling tire and estimating its noise performance is disclosed, wherein a tire model rolling on a rough road surface model is simulated, and coordinates of node points appearing in the outer surface of the rolling tire model are stored as time-series coordinates data. A small gap is formed between a tire outer surface model defined by the time-series coordinates data and a smooth road surface model. Then, a sound field filled with air is defined including the gap, and pressure variations of the air are computed.
18 Citations
4 Claims
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1. A computer-implemented method for estimating noise performance of a tire during rolling, comprising:
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defining a smooth road surface model in a computer, wherein the smooth road surface model is a finite element model of a smooth road surface, defining a rough road surface model in the computer, wherein the rough road surface model is a finite element model of a rough road surface, defining a tire model in the computer, wherein the tire model is a finite element model of the tire including a tread and grooves disposed in the tread, performing a rolling tire simulation by the computer by making calculations of the tire model contacting with the rough road surface model and rolling on the rough road surface model so as to obtain coordinates data on node points of the tire model appearing in the outer surface of the rolling tire model as time-series coordinates data of the outer surface of the rolling tire model deformed by contacting with the rough road surface model, defining a tire outer surface model in the computer by the time-series coordinates data obtained through the rolling tire simulation whereby the tire outer surface model is the outer surface of the tire model rolling on the rough road surface model, performing a noise simulation by the computer by setting the tire outer surface model on the smooth road surface model to simulate the tire outer surface model rolling on the smooth road surface model, and computing a physical quantity of a sound field defined in a space encompassing at least a ground contacting part of the tire outer surface model and a corresponding part of the smooth road surface model, and judging whether the computed physical quantity is within an acceptable range or not, wherein if within the acceptable range, outputting data about the tire model based on which an actual tire is designed, and if outside the acceptable range, modifying the tire model in order to repeat the performing of the rolling tire simulation, the defining of the tire outer surface model, and the performing of the noise simulation, wherein during performing the noise simulation, said ground contacting part of the tire outer surface model is always separated from the smooth road surface model by small distance so that a gap is formed between the tire outer surface model and the smooth road surface model, and said sound field is also defined in the gap, and the rough road surface model is produced by shifting node points of the smooth road surface according to data on an actual rough road surface obtained by means of three dimensional scanning. - View Dependent Claims (2)
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3. A computer-implemented method for estimating noise performance of a tire during rolling, comprising:
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defining a smooth road surface model in a computer, wherein the smooth road surface model is a finite element model of a smooth road surface, defining a rough road surface model in the computer, wherein the rough road surface model is a finite element model of a rough road surface, defining a tire model in the computer, wherein the tire model is a finite element model of the tire including a tread and grooves disposed in the tread, performing a rolling tire simulation by the computer by making calculations of the tire model contacting with the rough road surface model and rolling on the rough road surface model so as to obtain coordinates data on node points of the tire model appearing in the outer surface of the rolling tire model as time-series coordinates data of the outer surface of the rolling tire model deformed by contacting with the rough road surface model, defining a tire outer surface model in the computer by the time-series coordinates data obtained through the rolling tire simulation whereby the tire outer surface model is the outer surface of the tire model rolling on the rough road surface model, performing a noise simulation by the computer by setting the tire outer surface model on the smooth road surface model to simulate the tire outer surface model rolling on the smooth road surface model, and computing a physical quantity of a sound field defined in a space encompassing at least a ground contacting part of the tire outer surface model and a corresponding part of the smooth road surface model, and judging whether the computed physical quantity is within an acceptable range or not, wherein if within the acceptable range, outputting data about the tire model based on which an actual tire is designed, and if outside the acceptable range, modifying the tire model in order to repeat the performing of the rolling tire simulation, the defining of the tire outer surface model, and the performing of the noise simulation, wherein the roughness of the rough road surface model is 1 to 5 mm in the depth direction, 1 to 20 mm in the rolling direction of the tire model and 1 to 20 mm in the lateral direction perpendicular to the rolling direction, and the rough road surface model is produced by shifting node points of the smooth road surface by means of random number generation. - View Dependent Claims (4)
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Specification