参考文献：

［1］Mile,J.M.,Fed Sherk,T.,et al.Synthesis of linear polyphenylene sulfide with high molecular weight[P].US:3783138,1995.
［2］Edmonds,J.T., Lacey E.,et al.Synthesis of polyphenylene sulfide resin[P].US:4324886,1993.
［3］罗吉星,李浩.高分子量聚苯硫醚树脂合成方法的改进[J].合成化学,1998,6(2):205-207.
［4］罗吉星,杨云松.线型高分子量聚苯硫醚的研究[J].四川大学学报(自然科学版),1998,35(3):488-490.
［5］谢美菊,严永刚,等.工业硫化钠法常压合成线型高分子量聚苯硫醚的研究[J].高分子材料科学与工程,1999,15(1):170-172.
［6］杨杰,余自力.准线型高分子量聚苯硫醚树脂的合成研究[J].塑料工业,1996,24(1):50-52.
［7］杨杰,陈永荣.线型高分子量聚苯硫醚树脂的合成研究[J].工程塑料应用,1995,23(4):18-20,32.
［8］谢美菊,严永刚,等.工业硫化钠法常压合成线型高分子量聚苯硫醚的研究[J].高分子材料科学与工程,1999,15(1).
［9］古旗高.线型高分子量聚苯硫醚树脂的合成[P].CN:1309142A,1999.
［10］Campbell,et al.Synthesis of branched polyphenylene sulfide resin[P].US:3 919 177,1995.
［11］Edmends J.T,Hill H.W.,et al.Synthesis of high molecular weight branched polyphenylene sulfide[P]. US:3354129,1994.
［12］杨杰,罗美明,等.支化反应型高分子量聚苯硫醚合成研究[J].化学研究与应用,1995,7(3):271-276.
［13］李宗全,韦钦.聚苯硫醚/石墨复合物的微观结构[J].高分子学报,1991(4):468-473.
［14］Scobbo, James J. Jr., Effect of solid-state curing on the viscoelastic properties of poly(phenylene sulfide)[J]. Journal of Applied Polymer Science ,1993,47(12): 2 169-2 175.
［15］Rebenfeld L., Desio, G P.; et al. Effects of fibers on the glass transition temperature of polyphenylene sulfide composites[J]. Journal of Applied Polymer Science ,1991,42(3): 801-805.
［16］Cole K.C., Noel, D., Hechler, J.J., Wilson, D.. Crystallinity in PPS-carbon composites. A study using diffuse reflection FT-IR spectroscopy and differential scanning calorimetry[J]. Journal of Applied Polymer Science,1990,39(9): 1887-1902.
［17］Sekiguchi.I.,Shirar.O.,et al.Tribological properties of polymer alloys based on polyphenylene sulfide[J]. Research Reports of Kogakuin University,1995,10:1-7.
［18］Bahadur S., Gong D.. The role of copper compounds as fillers in the transfer and wear behavior of polyetheretherketone[J]. Wear , 1992,(154): 151-165.
［19］Bahadur S., Gong D., The transfer and wear of nylon and CuS-nylon composites: filler proportion and counterface characteristics[J]. Wear ,1993,162-164:397-406.
［20］Bahadur S., Gong D.,et al. The role of copper compounds as fillers in the transfer film formation and wear of nylon[J]. Wear , 1992,154:207-223.
［21］Bahadur S.,Kapoor, A..The effect of ZnF2, ZnS and PbS fillers on the tribological behavior of nylon 11[J]. Wear , 1992,(155): 49-61.
［22］Zhao Q., Bahadur S..A study of the modification of the friction and wear behavior of polyphenylene sulfide by particulate Ag2S and PbTe fillers[J]. Wear, 1998, 218: 62-72.
［23］Zhao Q., Bahadur S.. A study of the modification of the friction and wear behavior of polyphenylene sulfide by particulated Ag2S and PbTe fillers[J].Wear,1998,217:62-72.
［24］Zhao Q., Bahadur S.. The mechanism of filler action and the criterion of filler selection for reducing wear[J]. Wear,1999, 225-229: 660-668.
［25］Bahadur.S., Gong.D.,et al.Tribochemical studies by XPS analysis of transfer film of nylon 11 and its composites containing copper compounds[J].Wear,1993,165:205-212.
［26］Bahadur.S.,Gong D.,et al.The investigation of the action of fillers by XPS studies of the transfer films of PEEK and its composites containing CuS and CuF2[J].Wear,1993,160:131-138.
［27］Yu L.G., Yang S.R..Investigation of the transfer film characteristics and tribochemical changes of Kevlar fiber reinforced polyphenylene sulfide composites in sliding against a tool steel counterface[J]. Thin Solid Films, 2002,413(1-2): 98-103.
［28］Solina D. M.,Cheary R. W.. Investigation of the interfacial structure of ultra-thin platinum films using X-ray reflectivity and X-ray photoelectron spectroscopy[J]. Thin Solid Films,2000,372(1-2):94-103 .
［29］Kim D.H., Kim J.K.,et al. Anisotropic tribological properties of the coating on a magnetic recording disk[J]. Thin Solid Films ,2000,360(1-2):187-194.
［30］Hutton T.J., Johnson D.,et al. Effects of fibre orientation on the tribology of a model carbon-carbon composite[J].Wear,2001,249(8):647-655.
［31］Schwartz C. J., Bahadur S.. The role of filler deformability, filler-polymer bonding, and counterface material on the tribological behavior of polyphenylene sulfide (PPS)[J].Wear,2001,251(1-12):1 532-1 540.
［32］Han S.W., Blanchet T.A.. Experimental evaluation of a steady state model for the wear of particle filled polymer composite materials[J]. J. Tribol, 1997,119:694-699.
［33］Jang J., Lee, C.. Performance improvement of GF/CF functionally gradient hybrid composite[J].Polymer Testing,1998,17(6):383-394.
［34］Mohammed J K., Rawlings R.D.,et al. Metal-ceramic functionally gradient material produced by laser processing[J].Journal of Materials Science, 1993, 28(10): 2 820-2 826.
［35］Markworth A.J., Ramesh K.S., Parks W.P.. Modelling studies applied to functionally graded materials[J].Journal of Materials Science ,1995,30(9): 2 183-2 193.
［36］Lee N.J., Jang J., Park M., Choe C.R.. Characterization of functionally gradient epoxy/carbon fibre composite prepared under centrifugal force[J].Journal of Materials Science, 1997,32(8): 2 013-2 020.
［37］Gopakumar T.G.,Ponrathnam S.,et al.In situ compatibilization of polyphenylene sulfide/wholly aromatic thermotropic liquid crystalline polymer blends by reactive extrusion:morphology,thermal and mechanical properties[J].Polymer,1999,40:357-364.
［38］Minkova L.T.,De Petris S,Paci.M..Processing and properties of liquid crystalline polymers and LCP based blend[M].Canada:ChemTe Publishing,1993.153.
［39］Folkes M.J.Hope P.S..Polymer blends and alloys[M].London:Chapma ＆ Hall,1993,Chapter 8.
［40］Brown S.B..Reactive extrusion principles and practice chapter 8[M].New York:Hanser,1992.
［41］Christian J.,Schwartz S..Studies on the tribological behavior and transfer film-counterface bond strength for polyphenylene sulfide filled with nanoscale alumina particles[J].Wear,2000,237(2):261-273.
［42］Gopakumar T.G.,Ponrathnam S.,et al. Polyphenylene sulfide/ thermotropic liquid crystalline polymer blends:a comparative study of thermal properties,phase behavior and morphology of blends generated by different techniques[J].Polymer,1998,39(11):2 221-2 226.
［43］麦堪成,张声春,等.聚苯硫醚/尼龙6共混物的结晶与熔融行为[J]. 高分子材料科学与工程,2000,16(3):148-154.
［44］麦堪成,张声春,等. 聚苯硫醚/尼龙6共混物界面对结晶行为的影响[J]. 高分子学报,2001,(1):121-123.

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