ROBPACS®関連
(はり理論)
[1] 有限要素法の梁理論;たとえば「有限要素法ハンドブック(基礎編)」(培風館), 鷲津久一郎他, p.206-217.
(転がり軸受解析理論)
[2] Jones, A. B., “A General Theory for Elastically Constrained Ball and
Radial Roller Bearings Under Arbitrary Load and Speed Conditions”, Transactions
of the ASME, Journal of Basic Engineering, Vol.82, No.1 (1960), pp.309-320.
[3] Harris, T. A., “The Effect of Misalignment on the Fatigue Life of Cylindrical
Roller Bearings Having Crowned Rolling Members”, Transaction of the ASME,
Journal of Lubrication Technology, Vol. 91, Series F, No.2, (1969), pp.294-300.
[4] Andeason, S., “Load Distribution in a Taper Roller Bearing Arrangement
Considering Misalignment”, Tribology, Vol.6, No.3 (1973), pp.84-92.
[5] Liu, J., Y., “Analysis of Taper Roller Bearings Considering High Speed and Combined Loading”, Transactions of the ASME, Journal of Luburication Technology, Vol.98, No.3 (1976), pp.564-574.
(転がり軸受寿命理論)
[6] Lundberg, G., and Palmgren, A., “Dynamic Capacity of Rolling Bearing”,
Acta Polytechnica, Mechnical Engineering Series, Vol.1, No.3 (1947), and
Lundberg, G., and Palmgren, A., “Dynamic Capacity of Roller Bearings”,
Acta Polytechnica, Mechnical Engineering Series, Vol. 2, No. 4 (1952).
(EPC法解説記事)
[7]「ころ軸受における接触問題の新しい解法」, 長谷陽夫, 月刊トライボロジー, 6月号(No.346), (2016), 44-46.
[8]「転がり軸受を支える解析技術-接触圧力の解析-」, 長谷陽夫, 設計工学, Vol.52, No.3,(2017年3月), 133-138.
NOCPAC®関連
(接触理論)
[1] 「線形四角形要素を用いた接触面圧と表面下剪断応力の解析」長谷陽夫, 機械学会論文集, C編, 第73 巻, 732 号, pp.2401-2408
(2007).
[2] Hartnett, M. J., "The Analysis of Contact Stresses in Rolling
Element Bearings", Transaction of the ASME, Journal of Lubrication
Technology, Vol. 101 (1979), pp. 105-109.
(転がり疲労寿命理論)(多点LP法)
[3]
" Improved Method of Roller Bearing Fatigue Life Prediction Under Edge Loading Conditions ", H. Nagatani, Tribology Transactions, Vol.53, Issue5, pp.695-702 (2010)
[4]
「エッジロード発生時の転がり軸受寿命予測改良手法」, 長谷 陽夫, NTN TECHNICAL REVIEW, No.78, pp.77-87(2010).
[5]
「エッジロード発生時のころ軸受寿命予測への多点LP法の適用 ~カットクラウニングころの場合~」, 長谷 陽夫, 機械学会2011年度年次大会, S112013(2011).
[6]「エッジロード発生時の転がり軸受寿命計算方法」, 長谷 陽夫, 第50回精密工学会「転がり機械要素専門委員会」アカデミック特集(明治大学
理工学部 生田キャンパス)(2013).
TEHLAC関連
(潤滑油特性)
[1]
Barus, C., "Isothermals, Isotropics and Isometrics relative to Viscosity",
Am, J., of Science, 45, pp.87-96.
[2]
Roelands, C., J., "Correlational Aspects of Viscosity-Temperature-Pressure
Relationship of Lubricating Oils", Ph.D. thesis, Delft University
of Technology, Netherlands.
[3]Dowson, D., and Higginson, G., R., "Elastohydrodynamic Lubrication,
The Fundamental of Roller and Gear Lubrication", Pergamon, Oxford,
(1966).
[4]Ree, T., and Eyring, H., "Teory of Non-Newtonian Flow, Ⅰ., Solid
Plastic System; Ⅱ., Solution Systems of High Polymers", Journal of
Applied Phys., Vol.26, No.7, (1955), pp.793-809.
(EHL解析)
[5] Dowson, D., and Higginson, G., R., "A Numerical Solution to the
Elasto-hydrodynamic Problem", Journal of Mechanical Engineering Science,
Vol.1, Issue 1, (1959), pp.6-15.
[6] Venner, C. H. and Lubrecht, A.A., , "Multilevel Methods in Lubrication",
Elsevier, Tribology Series No. 37, 2000.
(一般化レイノルズ方程式)
[7] Dowson, D. , "A Generalized Raynolds Equation for Fluid-film Lubrication",
Int. J. Mechanical Sience, 4, (1962), pp. 159-170.
(TEHL解析)
[8]
Yang, P., and Wen, S.," A Generalized Reynolds Equation for Non-Newtonian
Thermal Elastohydrodynamic Lubrication", Transacrtion of the ASME,
Journal of Tribology, Vol.112, (1990), pp.631-636.
[9]
Guo, F., Yang, P., and Qu, S.," On the Theory of Thermal Elastohydrodynamic
Lubrication at High Slide-Roll Rations - Circular Glass-Steel Contact Solution
at Opposite Sliding", Transacrtion of the ASME, Journal of Tribology,
Vol.123, (2001), pp.816-821.
[10] Liu, X., Jiang, M., Yamg, P., and kaneta, M., “Non-Newtonian Thermal
Analyses of Point EHL ContactsUsing the Eyring Model”, Transactions of
the ASME, Journal of Tribology, Vol., No.127 (2005), pp.70-81.
(温度境界条件)
[11]H.S.Carslaw, J.C.Jaeger, Conduction of Heat in Solids. 2nd edition. Clarenden
Press, Oxford, 1959.
ATMAP関連
(ATミッション)
[1]「
自動車技術ハンドブック 第4分冊(設計(パワートレイン)編)第4章 動力伝達系 4.3.3 遊星歯車方式自動変速機」, 自動車技術会,(2005.7),
p.233-p.246
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