PG-1 STUDY ON THE TOOTH SURFACE ABRASION OF THE MOLDED PLASTIC GEAR AND DURABILITY(PLASTIC GEARS)
スポンサーリンク
概要
- 論文の詳細を見る
The plastic gear is used for turn and power transmission. The abrasion and damage of the tooth of plastic gears has become a problem. In addition, in the use of the plastic gear, it is the problem of strength evaluation of teeth. There is two thinks on the strength of the tooth. It is a breakage with the progress of the abrasion of the tooth in other. This paper deals with the result of tooth damage in evaluation of a molded plastic gear. Injury to a tooth is classified largely in two groups, one is progress damage and other is final damage. [1-6] In addition, abrasion and breakage of the tooth were analyzed through theory and experiment, and abrasion and evaluation of the breakage were carried out. The abrasion of the tooth was considered as following. The relationship between stress of Hertzian contact, circumference speed of the tooth, running time and abrasion weight was clarified. It was possible to obtain the precious material for design and use of molded plastic gear from the result in this study.
- 一般社団法人日本機械学会の論文
- 2001-11-15
著者
-
Shoji Akira
Department Of Biological Sciences Faculty Of Engineering Gunma University
-
Takahashi Munehisa
North Japan Electric Wire Co. Ltd.
-
SIBATA Hiroshi
Sumitomo Bakelite Co. LTD.
-
Shoji Akira
Department Of Mechanical Engineering Miyagi National College Of Technology
関連論文
- Detection and Phylogenetic Analysis of Norovirus in Corbicula fluminea in a Freshwater River in Japan
- One third of Japanese patients with rheumatoid arthritis use complementary and alternative medicine
- Phorbol Ester Facilitates Apoptosis in Murine Fibroblasts Pretreated by Mild Ultraviolet Radiation
- PG-1 STUDY ON THE TOOTH SURFACE ABRASION OF THE MOLDED PLASTIC GEAR AND DURABILITY(PLASTIC GEARS)
- PG-3 ANALYSIS OF MOLDED DEFORMED LAYER OF INJECTION MOLDED PLASTIC GEAR(PLASTIC GEARS)
- Carbon-13 NMR chemical shift and electronic structure of solid polypeptides as studied by tight-binding MO theory. Polyglycine and poly(L-alanine).