Mathematical Analysis of Three-dimensional Geometric Tolerances of Mechanical Products : Analysis under Maximum Material Condition(Digital design and digital manufacturing (continued))
スポンサーリンク
概要
- 論文の詳細を見る
Dimensional tolerances and geometric tolerances of three-dimensional product shapes are very important for manufacturing process control and quality control of mechanical products. The objective of the present research is to develop systematic methods for planning and analysis of the geometric tolerances of the three-dimensional mechanical products. The tolerance zones of the geometric features have been investigated, in the previous paper, based on the definitions of the geometric tolerances, and the parameters have been defined to describe the deviations of the geometric features within the tolerance zones. Mathematical methods are discussed, in the present paper, to estimate the statistical deviations of the positions and the orientations of the geometric features, based on the deviation parameters and the relationships between the datum features and the target features. In particular, emphasis is given to the analysis of the statistical deviations of the geometric features under the MMC (Maximum Material Conditions), which specifies the interaction between the dimensional tolerances and the geometric tolerances. The proposed method is applied to the analysis of the deviations of the geometric features, to which both the dimensional tolerances and the geometric tolerances are required.
- 一般社団法人日本機械学会の論文
- 2005-10-18
著者
-
Iwamura Koji
Graduate School Of Engineering Osaka Prefecture University
-
Sugimura Nobuhiro
Osaka Prefecture University
-
Sugimura Nobuhiro
Graduate School Of Engineering Osaka Prefecture University
-
Satonaka Naoki
Osaka Prefectural College of Technology
-
Yoshida Akifumi
Osaka Prefecture University
-
Tanimizu Yoshitaka
Osaka Prefecture University
-
Iwamura Koji
Osaka Prefecture University
関連論文
- B31 A Study on 3-Dimensional Skeletal Model for Rotational Motions of Forearms(Advanced machining technology)
- Foreword(Advanced Manufacturing Technology [I])
- Improvement of crossover operator in genetic algorithm for reactive scheduling(Manufacturing systems and Scheduling)
- 1B1 A STUDY ON INTEGRATED PROCESS PLANNING AND SCHEDULING SYSTEM FOR HOLONIC MANUFACTURING SYSTEMS : MODIFICATION OF PROCESS PLANS(Technical session 1B: Manufacturing systems)
- Negotiations among Clients and Suppliers Considering Production Schedules in Dynamic Supply Chain(Manufacturing systems and Scheduling)
- B33 Extension of Two-Layered Dynamic Supply Chain Model Considering Transportation Constraint(Advanced machining technology)
- B32 Analysis of Kinematic Motion Deviations of Machining Centers Based on Geometric Tolerances(Advanced machining technology)
- 3B2 MEMBRANOUS MULTI AGENT SYSTEM IN FLEXIBLE MANUFACTURING SYSTEMS
- 3A1 CO-EVOLUTIONARY GENETIC ALGORITHMS FOR REACTIVE SCHEDULING
- A Study on Real-Time Scheduling of Holonic Manufacturing Systems(Manufacturing systems and Scheduling)
- Mathematical Analysis of Three-dimensional Geometric Tolerances of Mechanical Products : Analysis under Maximum Material Condition(Digital design and digital manufacturing (continued))
- 3-A-4 A STUDY ON REAL-TIME SCHEDULING FOR HOLONIC MANUFACTURING SYSTEM
- Co-evolutionary Genetic Algorithms for Reactive Scheduling
- Development of Scheduling System Considering Statistical Distributions of Processing Times for Human Operators
- Preface
- 2A1 DEVELOPMENT OF SCHEDULING SYSTEM FOR HUMAN OPERATORS CONSIDERING UNCERTAINTY OF PROCESSING TIME(Technical session 2A: OS1: Practical scheduling approach(2))
- 1C2 EVALUATION OF MULTI-LAYERED DYNAMIC SUPPLY CHAIN MODELS WITH COOPERATIVE NEGOTIATION(Technical session 1C: Supply chain and logistics)