Improved Method for Determining the Height of Center of Gravity of Agricultural Tractors |
Kim, YuYong
(National Institute of Agricultural Science, Rural Development Administration)
Noh, JaeSeung (National Institute of Agricultural Science, Rural Development Administration) Shin, SeungYeop (National Institute of Agricultural Science, Rural Development Administration) Kim, ByoungIn (National Institute of Agricultural Science, Rural Development Administration) Hong, SunJung (National Institute of Agricultural Science, Rural Development Administration) |
1 | Korean Agency for Technology and Standards. 2003. KS B ISO 789-6. Agricultural tractors-Test procedures-Center of gravity (in Korean). |
2 | Korean Society of Agricultural Machinery. 2004. Tractor engineering principles. Moonundang (in Korean). |
3 | OECD. 2016. Code 2. OECD standard code for the official testing of agricultural and forestry tractor performance. |
4 | RDA. 2012. The 7th Korea-Japan joint seminar on safety for agricultural machinery (in Korean). |
5 | RDA. 2013. 2012 Survey of agricultural machinery accident (in Korean). |
6 | Steinbruegge, G. W. 1969. Improved methods of locating centers of gravity. Transactions of the ASAE 12(5):681-684. DOI |
7 | ASABE. 2015. New standard to minimize rollover risk of self-propelled machinery. The American Society of Agricultural and Biological Engineers(ASABE), available at: http://www.agprofessional.com/news/new-standardminimize-rollover-risk-self-propelled-machinery |
8 | ISO. 1982. ISO 789/6. Agricultural tractors-Test procedures-Part 6: Centre of gravity. |