• Journal of Biosystems Engineering
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• 제31권2호
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• pp.81-87
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• 2006

In this study, a mathematical model was suggested to predict the maximum steering torque of a tractor on off-road. The model took into account the characteristics of soil, including the pressure-sinkage and the shearing characteristics as well as the primary design parameters of steering system of the tractor. The efficiency of the developed model was verified via comparison of the maximum steering torque predicted using the model with those measured from steering torque test. The results showed that the predicted maximum steering torques were in good agreement with the measured ones from the steering test on soft soil in which tractor is generally operated. Thus, we concluded that the model developed in this study could be used for prediction of maximum steering torque of a tractor.

• 한국정보전자통신기술학회논문지
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• 제12권4호
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• pp.359-365
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• 2019

본 연구는 트랙터 변속기의 성능평가, 내구성 향상 및 최적 설계 등을 위한 기초 연구로써 로타리 작업에 따른 78 kW급 농업용 트랙터의 엔진 토크를 CAN 통신을 이용하여 수집하고, 등가 토크를 분석하였다. 신뢰성 높은 트랙터 개발을 위해서는 실제 농작업 환경에서 발생하는 부하를 등가 토크로 변환하여, 분석하는 것이 필요하다. 등가 토크는 대표적인 누적 손상법인 Palmgren-Miner 식으로 작업 및 선회구간에 대하여 계산되었으며, 각각 229.2, 136.7 Nm로 나타났다. 로타리 작업구간에서 최대 및 평균 토크는 각각 336.0, 234.4 Nm로 나타났으며, 선회구간의 최대 및 평균 토크는 288.0, 134.6 Nm로 나타났다. 로타리 작업구간에서의 엔진 토크는 PTO를 통해 토양을 경운하기 때문에 선회구간보다 높게 나타났다. 엔진의 최대 및 정격 토크는 각각 387.0, 323.0 Nm로, 로타리 작업 및 선회구간의 등가 토크보다 각각 183%, 136% 높게 나타났다. 국내 트랙터 회사는 일반적으로 엔진의 정격 토크를 기준으로 변속기를 설계하기 때문에, 실제 작업 토크와 다소 차이가 있다. 그러므로 최적 설계를 위해 실제 작업 토크를 고려하는 것이 필요할 것으로 판단된다.

• 한국산업융합학회 논문집
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• 제23권4_2호
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• pp.661-667
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• 2020

The optimal shape modeling of core parts through 3D modeling and structural analysis for the development of small and medium-sized ships. The goal is to improve the efficient structure of the hydraulic system for controlling the rudder among the core steering parts in small and medium-sized ships. Through 3D modeling and structural analysis, a new concept of tiller parts and a double-acting hydraulic cylinder control system were proposed and operational structural stability was evaluated. Structural analysis of the three different tiller designs that can be replaceable onto existing fishing vessels was conducted to derive the final shapes. The emphasis was placed on evaluating the structural stability of the key drive components, the tiller, pin, and cylinder rodin the maximum torque condition of the hydraulic cylinder.

• Journal of Power Electronics
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• 제17권5호
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• pp.1223-1230
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• 2017

The back emf harmonics of a permanent magnet (PM) synchronous motor is a major source of torque ripple. For torque control applications including column fitted MDPS (motor driven power steering) systems, it is essential to reduce the mechanical vibrations due to torque ripples at low speeds. In this paper, a torque ripple reduction algorithm for interior PM synchronous motors is proposed. The harmonic currents that cancel the $6^{th}$ order torque harmonic are added to the nominal dq currents for MTPA (maximum torque per ampere) operation. The compensated harmonic currents are derived from flux linkage harmonics based on a FFT analysis of the back emf harmonics. Simulation and experimental results verify that the $6^{th}$ order torque harmonic and THD of the torque ripple are reduced by compensating the dq harmonic currents.

• 한국분말야금학회:학술대회논문집
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• 한국분말야금학회 1993년도 추계학술강연 및 발표대회강연 및 발표논문 초록집
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• pp.4-4
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• 1993

Ferrous powder metallurgy in Japan has developed in the last four decades, where every decade is featured by certain breakthroughs in materials. The progress in PM materials is closely related to newly developed powders. Low alloy steel powders for high strength PM components are grouped into three types: Ni and/or Mo containing completely alloyed powders, Ni containing partially alloyed powders, and Cr containing completely alloyed powders. Every type has its special characteristics. The tensile strength of PM materials is improved up to 2 GPa. The hardness is also increased to exceed 500 HV with normal hardening methods, and 700 HV with novel surface treatment techniques. The present maximum of fatigue strength is 550 MPa, and that of impact energy is 100 J. Novel PM materials with improved properties are applied to a variety of automobile and other components: power steering pumps, rocker anns, valve guides and inserts, bearings, torque sensors, etc. The future outlook for the ferrous PM is Quite positive, and the industry is expected to show renewed growth by applying many types of alloy steel powders and new ferrous PM materials.