The Experts below are selected from a list of 116916 Experts worldwide ranked by ideXlab platform
Okitoshi Tsunoda - One of the best experts on this subject based on the ideXlab platform.
-
Study of quantitative evaluation by using Fatigue Analysis for assembly work
2011 IEEE International Conference on Mechatronics and Automation, 2011Co-Authors: Kazuki Kanda, Okitoshi TsunodaAbstract:This paper provides an evaluation method based on the Fatigue Analysis for the assembly work. In the past, the assemble-ability evaluation method had been developed by large enterprises to evaluate its design for easy assembly of high volume production. It is called the Assemblability. But recently not only the high volume production with an automated production but also the low volume production with a human production are demanded to meet customer requirements. We focus on the Fatigue Analysis of the assembly work and develop the evaluation method by using the Fatigue Analysis for the easy assembly and good product quality.
Kazuki Kanda - One of the best experts on this subject based on the ideXlab platform.
-
Study of quantitative evaluation by using Fatigue Analysis for assembly work
2011 IEEE International Conference on Mechatronics and Automation, 2011Co-Authors: Kazuki Kanda, Okitoshi TsunodaAbstract:This paper provides an evaluation method based on the Fatigue Analysis for the assembly work. In the past, the assemble-ability evaluation method had been developed by large enterprises to evaluate its design for easy assembly of high volume production. It is called the Assemblability. But recently not only the high volume production with an automated production but also the low volume production with a human production are demanded to meet customer requirements. We focus on the Fatigue Analysis of the assembly work and develop the evaluation method by using the Fatigue Analysis for the easy assembly and good product quality.
Erkki Niemi - One of the best experts on this subject based on the ideXlab platform.
-
Stress determination for Fatigue Analysis of welded components - Stress determination for Fatigue Analysis of welded components
1995Co-Authors: Erkki NiemiAbstract:Scope and field of application Stresses considered in Fatigue Analysis Stress raisers Fatigue Analysis approaches Guidelines for the choice of Fatigue Analysis method Guidelines for finite element Analysis Experimental determination of stresses.
-
stress determination for Fatigue Analysis of welded components
1995Co-Authors: Erkki NiemiAbstract:Scope and field of application Stresses considered in Fatigue Analysis Stress raisers Fatigue Analysis approaches Guidelines for the choice of Fatigue Analysis method Guidelines for finite element Analysis Experimental determination of stresses.
J. Bahuaud - One of the best experts on this subject based on the ideXlab platform.
-
Standardization of the rainflow counting method for Fatigue Analysis
International Journal of Fatigue, 1994Co-Authors: C. Amzallag, J.p. Gerey, J. L. Robert, J. BahuaudAbstract:Abstract The rainflow procedure is a cycle-counting method that makes it possible to store service measurements in a form suitable for Fatigue Analysis of structures: Fatigue life prediction and simulation testing. A consultation has been conducted by the authors with different industries (automobile, aircraft, energy and steel) to obtain a consensus on a proposed rainflow methodology and its use for Fatigue Analysis. An AFNOR document, resulting from this work, has been edited for describing the rainflow procedure, the standardized presentation of results and the reconstruction of a loading sequence from a rainflow matrix. This paper presents the methodology used and its application for combining different sequences.
Chul-goo Kang - One of the best experts on this subject based on the ideXlab platform.
-
Fatigue Analysis of railway wheels according to UIC standards
2012Co-Authors: Chul-goo KangAbstract:Wheelsets of a train experience a high cyclic load in normal operation and the Fatigue Analysis of the wheel is crucially important in view of safety of the train. This paper presents a methodology to verify the Fatigue safety of the rolling wheels, which is a part of wheelset design process. Recently, the Fatigue Analysis of the wheel is conducted mainly based on UIC Code criterion, which is complex to apply to actual wheels. In this paper, a 3D model of the railway wheel is analyzed using ANSYS FEM software via uni-axial criterion and multi-axial Crossland criterion.
