Study on M40T-300 Carbon Fiber Reinforced Cyanate Hybrid Composites

REN Peng-gang; LIANG Guo-zheng

PDF(949 KB)

Journal of Aeronautical Materials ›› 2007, Vol. 27 ›› Issue (1) : 51-56.

Study on M40T-300 Carbon Fiber Reinforced Cyanate Hybrid Composites

Author information +

History +

Abstract

Interply and intraply hybrid composites based on Bisphenol A Dicyanate ester(BADCy) and T300-M40 fiber were prepared by monofilament press moulding process.Mechanical properties(tensile,flexural and interlaminar shear) and SEM analysis of fracture surfaces of hybrid composites with different fiber content and fiber arrangement were investigated.It was found that the mechanical properties of intraply hybrid composites were mainly dependent on the fiber content.While the mechanical properties of interply hybrid composite mainly rely on the fiber arrangement.The hybrid composites with T300 laid on the outside layers possessed high flexural strength.When M40 was laid on the outside layer and T300 in the middle,the hybrid composite([(M40)x/(T300)y]S) would possess high flexural modulus and high interlaminar shear strength.

Key words

T300 fiber / M40 fiber / cyanate ester / hybrid composites

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

REN Peng-gang, LIANG Guo-zheng. Study on M40T-300 Carbon Fiber Reinforced Cyanate Hybrid Composites[J]. Journal of Aeronautical Materials, 2007, 27(1): 51-56

References

BLAIR C,ZAKRZEWSKI J.Moisture absorption and mechanical properties for high modulus Pitch 75 graphite fiber/modified cyanate ester resin laminates[M].SPIE,1992,(1690):300-308.
陈烈民.碳纤维复合材料在卫星上的应用趋势[J].宇航材料工艺,1993,(4):5-7.
ZIMCIK D G,MAAG C R.Results of Apparent Atomic Oxygen Reactions with Spacecraft Materials During Shuttle Flight STS-41G[J].J.Spacecraft and Rocket,1988,25(2):62-168.
KERN K T,STANCIL P C,HARRIES W L.Simulated Space environmental Effects On a Polyetherimide and Its Carbon Fiber-Reinforced Composites[J].SAMPE Journal,1993,29(3):29-44.
邱惠中,吴志红.国外航天材料的新进展[J].宇航材料工艺,1997,(4):5-13.
沃西源.国内外几种碳纤维性能比较及初步分析[J].航天返回与遥感,1993,14(4):50-57.
沃西源.M40/环氧648准各向同性层板力学性能分析[J].航天返回与遥感,1995,16(4):45-51.
LARSSON F,SVENSSON L.Carbon,polyethylene and PBO hybrid fibre composites for structural lightweight armour[J].Composites(A),2002,33:221-231.
BANTHIA N,NANDAKUMAR N.Crack growth resistance of hybrid fiber reinforced cement composites.Cement concrete composites,2003,25:3-9.
DUTRA R C L,SOARES B G,CAMPOS E A,et al.Hybrid composites based on polypropylene and carbon fiber and epoxy matrix[J].Polymer 2000,41:3841-3849.
NAIK N K,RAMASIMHA R,ARYA H,et al.Impact response and damage tolerance characteristics of glass-carbon/epoxy hybrid composite plates[J].Composites (B),2001,32:565-574.
曾金芳,王庭武,丘哲明,等.F-12/CF混杂复合材料纵向拉压性能研究[J].宇航材料工艺,2001,1:19-23.
张佐光,张晓宏,梁志勇,等.多向混杂纤维复合材料压缩及弯曲行为[J].材料工程,1995,11:22-25.
曾庆敦,黄小清,林雪慧.层内混杂复合材料应力集中问题的研究[J].应用数学和力学,2001,22:135-139.
史卫华,张佐光,李建玲.混杂纤维复合材料的静态力学性能[J].新型碳材料1997,12:29-32.