LOW CYCLE THERMAL FATIGUE OF THE ENGINE EXHAUST MANIFOLD

B. L. CHOI; H. CHANG; K. H. PARK

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LOW CYCLE THERMAL FATIGUE OF THE ENGINE EXHAUST MANIFOLD

机译：发动机排气歧管的低循环热疲劳

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This paper presents the low cycle thermal fatigue of the engine exhaust manifold subject to thermomechanical cyclic loading. As a failure of the exhaust manifold is mainly caused by geometric constraints of the less expanded inlet flange and cylinder head, the analysis is based on the exhaust system model with three-dimensional temperature distribution and temperature dependent material properties. The result show that large compressive plastic deformations are generated at an elevated temperature of the exhaust manifold and tensile stresses are remained in several critical zones at a cold condition. From the repetition of these thermal shock cycles, maximum plastic strain range (0.454%) could be estimated by the stabilized stress-strain hysteresis loops. It is used to predict the low cycle thermal fatigue life of the exhaust manifold for the thermal shock test.

机译：本文介绍了受到热机械循环载荷作用的发动机排气歧管的低循环热疲劳。由于排气歧管的故障主要是由于进气法兰和气缸盖膨胀程度较小的几何约束引起的，因此该分析基于具有三维温度分布和温度相关材料特性的排气系统模型。结果表明，在排气歧管温度升高时，会产生较大的压缩塑性变形，而在寒冷条件下，几个关键区域仍会保持拉应力。从这些热冲击循环的重复中，可以通过稳定的应力-应变磁滞回线来估算最大塑性应变范围（0.454％）。它用于预测热冲击测试中排气歧管的低循环热疲劳寿命。

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来源
《International Journal of Automotive Technology》 |2004年第4期|共6页
作者
B. L. CHOI; H. CHANG; K. H. PARK;
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正文语种 eng
中图分类汽车工程;
关键词
Exhaust manifold; Thermal shock test; FEM; Plastic strain range; Thermal fatigue life;

机译：排气歧管;热冲击试验;有限元;塑性应变范围;热疲劳寿命;

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专利

1. LOW CYCLE THERMAL FATIGUE OF THE ENGINE EXHAUST MANIFOLD [J] . B. L. CHOI, H. CHANG, K. H. PARK International Journal of Automotive Technology . 2004,第4期

机译：发动机排气歧管的低循环热疲劳
2. Stress analysis & life prediction of a cryogenic rocket engine thrust chamber considering low cycle fatigue, creep and thermal ratchetting [J] . A.K. Asraff, S. Sunil, R. Muthukumar Transactions of the Indian Institute of Metals . 2010,第2a3期

机译：考虑低周疲劳，蠕变和热咬合的低温火箭发动机推力室应力分析和寿命预测
3. Stress analysis & life prediction of a cryogenic rocket engine thrust chamber considering low cycle fatigue, creep and thermal ratchetting [J] . A. K. Asraff, S. Sunil, R. Muthukumar, Transactions of the Indian Institute of Metals . 2010,第sa2a3期

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4. Low-Cycle Thermal Fatigue and High-Cycle Vibration Fatigue Life Estimation of a Diesel Engine Exhaust Manifold [C] . Simone Sissa, Matteo Giacopini, Roberto Rosi International Colloquium on Mechanical Fatigue of Metal . 2014

机译：柴油发动机排气歧管的低循环热疲劳和高循环振动疲劳寿命估算
5. Effects of alloying elements on the microstructure and fatigue properties of cast iron for internal combustion engine exhaust manifolds. [D] . Eisenmann, David J. 2015

机译：合金元素对内燃机排气歧管铸铁的组织和疲劳性能的影响。
6. A phenomenological base semi-physical thermodynamic model for the cylinder and exhaust manifold of a natural gas 2-megawatt four-stroke internal combustion engine [O] . Guillermo Valencia Ochoa, Cesar Isaza-Roldan, Jorge Duarte Forero 2019

机译：2兆瓦天然气四冲程内燃机气缸和排气歧管的基于现象学的半物理热力学模型
7. Low-cycle Thermal Fatigue and High-cycle Vibration Fatigue Life Estimation of a Diesel Engine Exhaust Manifold [O] . Sissa Simone, Giacopini Matteo, Rosi Roberto 2014

机译：柴油机排气歧管的低周热疲劳和高周振动疲劳寿命估计
8. Bithermal Low-Cycle Fatigue Evaluation of Automotive Exhaust System Alloy SS409 [R] . Lu, Gui-Ying, Behling, Mike B., Halford, Gary R. 2000

机译：汽车排气系统合金ss409的低温低周疲劳评估

LOW CYCLE THERMAL FATIGUE OF THE ENGINE EXHAUST MANIFOLD

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