Plasticity analysis for orthogonal indentation of plastic rigid material by an acute angled wedge suggests that the faces of the wedge will be subjected to uniformly distributed pressure and tangential stresses over the contact length. In the present work the stress distribution at the tip of an infinitely deep wedges obtained when the wedge is subjected to such a stress distribution. The theoretical results are compared with photoelastic experiments and good agreement is achieved.
TranterC. J.‘The use of Mellin Transform in finding the stress distribution in an infinite wedge’, Quart. J. Mech. Appl. Math., 1948, 1, 125. See also SNEDDON, I. N., Fourier transforms, 1951 (McGraw-Hill, New York).
4.
ThomasonP. F.‘Stress distribution in a wedge for boundary conditions approximating to the rake face loads on a metal cutting tool’, J. Mech. Engng Sci., 1973, 15, 200–209.
5.
HillR.LeeE. H.TupperS. J.‘The theory of wedge indentation of ductile materials’, Proc. R. Soc. A, 1947, 188, 273–289.
6.
GrunzweigJ.LongmanI. M.PetchN. J.‘Calculation and measurement of wedge indentation’, J. Mech. Phys. Solids, 1953, 2, 81–86.
7.
JohnsonW.MahtabF. U.HaddowJ. B.‘The indentation of a semi-infinite block by a wedge of comparable hardness’, Int. J. Mech. Sci., 1964, 6, 329–336.
8.
MulhearnT. O.‘The deformation of metals by Vickers-type pyramidal indenters’, J. Mech. Phys. Solids, 1958, 7, 85–96.
9.
MarshD. M.‘Plastic flow in glass’, Proc. R. Soc. A, 1964, 279, 420–435.
10.
HirstW.HowseM.‘The indentation of materials by wedges’, Proc. R. Soc. A, 1969, 311, 429–444.
11.
PostD.‘Isochromatic fringe sharpening and fringe multiplication in photoelasticity’, Proc. Soc. Elastic Stress Analysis, 1955, 12, 2.
12.
FrochtM. M.Photoelasticity, 1948 (John Wiley, New York).
13.
GhobrialM. I.Wedge indentation of metals, PhD thesis, Bradford University, 1977.