The results of an extensive experimental programme on local loading of composite pipes are presented. Particular attention is directed to the influence of projectile nose shape on the damage tolerance of the pipes. Both filament wound pipes and lined chopped-strand mat pipes are considered.
CorbettG. G.ReidS. R.Failure of composite pipes under local loading with a hemispherically-tipped indenter. Int. J. Impact Engng, 1994, 15, 465–490.
2.
FrostS. R.CervenkaA.Glass fibre-reinforced epoxy matrix filament wound pipes for use in the oil industry. Composites Mfg, 1994, 5, 73–81.
3.
ChristoforouA. P.SwansonS. R.Strength loss in composite cylinders under impact. Trans. ASME, Engng Mater. Technol., 1988, 110, 180–184.
4.
SwansonS. R.Impact response of fibre composite structure. Appl. Mech. Rev., November 1991, 44(11), Part 2, S256–S263.
5.
AinsworthK. L.EvansK. E.Transverse impact of filament wound pipes. Fifth International Conference on Composite structures, Paisley College of Technology, 24—26 July 1989, pp. 333–345.
6.
PangS. S.KailasamA. A.A study of impact response of composite pipe. Conference on Composite materials for PVP applications, Tennessee, June 1990, ASME paper PVP 196, pp. 1–8.
7.
HaanesH.StakkeR.ThornH.Performance of glass fibre reinforced plastics (GRP) pipes under impact loading. In Materials engineering, OMAE Vol. 111-B, 1991, pp. 569–576 (American Society of Mechanical Engineers, New York).
8.
ReidS. R.AshtonJ. N.PengC.PlowesW.Damage tolerance of composite pipes to local impact loading. Final report, SERC (MTD)/Industry Project CP299, 1993.
9.
CalladineC. R.Thin-walled elastic shells analysed by a Rayleigh method. Int. J. Solids Structs, 1977, 13, 515–530.
10.
ReidS. R.Influence of geometrical parameters on the mode of collapse of a ‘pinched’ rigid-plastic cylindrical shell. Int. J. Solids Structs, 1978, 14, 1027–1043.
