FATIGUE PROPERTIESOF WOOD PLASTIC COMPOSITES

CHENG Yu; GUO Cheng; JING Cheng-fang; JING Zhi-hao; YE Ke-Lin

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Article Navigation > Acta Materiae Compositae Sinica > 2001 > 18(4): 119-122

CHENG Yu, GUO Cheng, JING Cheng-fang, et al. FATIGUE PROPERTIESOF WOOD PLASTIC COMPOSITES[J]. Acta Materiae Compositae Sinica, 2001, 18(4): 119-122.

Citation:

CHENG Yu, GUO Cheng, JING Cheng-fang, et al. FATIGUE PROPERTIESOF WOOD PLASTIC COMPOSITES[J]. Acta Materiae Compositae Sinica, 2001, 18(4): 119-122.

CHENG Yu, GUO Cheng, JING Cheng-fang, et al. FATIGUE PROPERTIESOF WOOD PLASTIC COMPOSITES[J]. Acta Materiae Compositae Sinica, 2001, 18(4): 119-122.

Citation:

CHENG Yu, GUO Cheng, JING Cheng-fang, et al. FATIGUE PROPERTIESOF WOOD PLASTIC COMPOSITES[J]. Acta Materiae Compositae Sinica, 2001, 18(4): 119-122.

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FATIGUE PROPERTIESOF WOOD PLASTIC COMPOSITES

1.
Xi'an Jiaotong University, Xi'an 710049,China;
2.
Chinese Academy of Forestry, Beijing 100091,China

Received Date: 1999-12-17
Rev Recd Date: 2000-08-01
Publish Date: 2001-11-15

Abstract

Abstract

The fatigue properties of two types of wood (P. Ussurensis and B. Platyphylla) and wood plastic composites were analyzed by three-point bend fracture testing, and fatigue crack propagation models were investigated. Test results show that the maximum stress of wood plastic composites presents a linear relationship with logarithmic fatigue life. Fatigue load increases linearly with enhanced polymer content. For P. Ussurensis, the slope of S-N fatigue curve is influenced by polymer content in wood, and fatigue crack grows along wood fibre. For B. Platyphylla plastic composites (PC>30 wt.%), fatigue crack grows in the shape of 'Z’ along the height of the specimen.
- wood plastic composites,
- fatigue properties,
- crack propagation
Long Abstrsct
Innovation Points