The effect of particles size and shape on erosion rates and erosion mechanisms of 5117 steels are investigated using slurry whirling-arm ring. Six different sized silica sand particles are used as erodent. These particles are characterized in terms of their average diameter, aspect ratio, and circularity factor. The measured average diameter varies from 112.7μm to 516.4μm. The wear tests are carried out at impact velocity of 15 m/s and 30 deg and 90 deg impact angles using a sand-water mixture of 1wt% concentration. Analysis of erosion rates shows that there exists threshold energy of impacting particles at which a transition in erosion rate is noticed for sizes of 200μm. It is also observed that the erosion rate increases with the increase in shape factors (aspect ratio and circularity factor). The surface morphology of the eroded surface at impact of 30 deg shows that below 200μm, the erosion mechanism is indentation and material extrusion and above 200μm, the erosion mechanism is ploughing.

Issue Section:
Technical Briefs
Keywords:
erosion, impact (mechanical), particle size, slurries, steel, surface morphology, wear, slurry erosion, particles size, kinetic energy, particles shape, scanning electron microscopy, 5117 steels
Topics:
Erosion, Particle size, Particulate matter, Slurries, Steel, Shapes, Kinetic energy, Wear
1.
Mckibben
,
M. J.
, and
Shook
,
C. A.
, 1991, “
Erosive Wear Pipeline Systems
,”
Slurry Handling Design of Solid-Liquid System
,
N. P.
Brown
 and
N. L.
Heywood
, eds.,
Elsevier Science
,
New York
, pp.
399
413
.
2.
Kleis
,
I.
, and
Kulu
,
P.
, 2008,
Solid Particle Erosion Occurrence, Prediction and Control
,
Springer-Verlag
,
London
.
3.
Grien
,
H.
, and
Schachenmann
,
A.
, 1992, “
Abrasion in Hydroelectric Machinery
,”
Sulzer Technical Review
0039-4912,
1
, pp.
19
28
.
4.
Humphrey
,
J. A. C.
, 1990, “
Fundaments of Fluid Motion in Erosion by Solid Particle Impact
,”
Int. J. Heat Fluid Flow
0142-727X,
11
, pp.
170
195
.
Crossref
Search ADS
 
5.
Clark
,
H. McI.
, 1992, “
The Influence of the Flow Field in a Slurry Erosion
,”
Wear
0043-1648,
152
, pp.
223
240
.
Crossref
Search ADS
 
6.
Tsai
,
W.
,
Humphrey
,
J. A. C.
, and
Cornet
,
I.
, 1981, “
Experimental Measurement of Accelerated Erosion in a Slurry Pot Tester
,”
Wear
0043-1648,
68
, pp.
289
303
.
Crossref
Search ADS
 
7.
Li
,
S. K.-K.
,
Humphrey
,
J. A. C.
, and
Levy
,
A. V.
, 1981, “
Erosion Wear of a Ductile Metals by a Particle Laden High Velocity Liquid Jet
,”
Wear
0043-1648,
73
, pp.
295
309
.
8.
Elkholy
,
A.
, 1983, “
Prediction of Abrasion Wear for Slurry Pump Materials
,”
Wear
0043-1648,
84
, pp.
39
49
.
Crossref
Search ADS
 
9.
Desale
,
G. R.
,
Gandhi
,
B. K.
, and
Jain
,
S. C.
, 2009, “
Particle Size Effects on the Slurry Erosion of Aluminum Alloy (AA 6063)
,”
Wear
0043-1648,
266
, pp.
1066
1071
.
Crossref
Search ADS
 
10.
Levy
,
A. V.
, and
Hickey
,
G.
, 1987, “
Liquid-Solid Particles Slurry Erosion of Steels
,”
Wear
0043-1648,
117
, pp.
129
146
.
Crossref
Search ADS
 
11.
Clark
,
H. McI.
, and
Wong
,
K. K.
, 1995, “
Impact Angle, Particle Energy and Mass Loss in Erosion by Dilute Slurries
,”
Wear
0043-1648,
186–187
, pp.
454
464
.
12.
Clark
,
H. McI.
, and
Hartwich
,
R. B.
, 2001, “
A Re-Examination of the Particle Size Effect in Slurry Erosion
,”
Wear
0043-1648,
248
, pp.
147
161
.
Crossref
Search ADS
 
13.
Gandhi
,
B. K.
, and
Borse
,
S. V.
, 2004, “
Nominal Particle Size of Multi-Sized Particulate Slurries for Evaluation of Erosion Wear and Effect of Fine Particles
,”
Wear
0043-1648,
257
, pp.
73
79
.
Crossref
Search ADS
 
14.
Lynn
,
R. S.
,
Wong
,
K. K.
, and
Clark
,
H. McI.
, 1991, “
On the Particle Size Effect in Slurry Erosion
,”
Wear
0043-1648,
149
, pp.
55
71
.
Crossref
Search ADS
 
15.
Clark
,
H. McI.
, 1991, “
On the Impact Rate and Impact Energy of Particles in a Slurry Pot Erosion Tester
,”
Wear
0043-1648,
147
, pp.
165
183
.
Crossref
Search ADS
 
16.
Clark
,
H. McI.
, 2002, “
Particle Velocity and Size Effects in a Laboratory Slurry Erosion Measurements or… Do You Know What Your Particles Are Doing?
,”
Tribol. Int.
0301-679X,
35
, pp.
617
624
.
Crossref
Search ADS
 
17.
Iwai
,
Y.
, and
Nambu
,
K.
, 1997, “
Slurry Wear Properties of Pump Lining Materials
,”
Wear
0043-1648,
210
, pp.
211
219
.
Crossref
Search ADS
 
18.
Stack
,
M. M.
, and
Pungwiwat
,
N.
, 1999, “
Slurry Erosion of Metallics, Polymers, and Ceramics: Particle Size Effects
,”
Mater. Sci. Technol.
0267-0836,
15
, pp.
337
344
.
Crossref
Search ADS
 
19.
Al-Bukhaiti
,
M. A.
,
Ahmed
,
S. M.
,
Badran
,
F. M. F.
, and
Emara
,
K. M.
, 2007, “
Effect of Impact Angle on Slurry Erosion Behaviour and Mechanisms of 1017 Steel and High-Chromium White Cast Iron
,”
Wear
0043-1648,
262
, pp.
1187
1198
.
Crossref
Search ADS
 
20.
Abouel-Kasem
,
Al-Bukhaiti
,
M. A.
,
Emara
,
K. M.
, and
Ahmed
,
S. M.
, 2009, “
Fractal Characterization of Slurry Eroded Surfaces at Different Impact Angles
,”
Trans. ASME, J. Tribol.
0742-4787,
131
, p.
031601
.
Crossref
Search ADS
 
21.
1986, ASTM Standard Test Method for Sieve Analysis of Granular Metal Powders Designation, B214-86, Philadelphia, PA.
22.
Cox
,
E. P.
, 1927, “
A Method of Assigning Numerical and Percentage Values to the Degree of Roundness of Sand Grains
,”
J. Paleontol.
0022-3360,
3
, pp.
179
183
.
23.
Abouel-Kasem
,
A.
,
Abd-Elrahman
,
Y. M.
,
Emara
,
K. M.
, and
Ahmed
,
S. M.
, 2010, “
Design and Performance of Slurry Erosion Tester
,”
Trans. ASME, J. Tribol.
0742-4787,
132
, p.
021601
.
Crossref
Search ADS
 
24.
Benchaita
,
M. T.
,
Griffith
,
P.
, and
Rabinowicz
,
E.
, 1983, “
Erosion of Metallic Plate by Solid Particle Entrained in a Liquid Jet
,”
ASME J. Eng. Ind.
0022-0817,
105
, pp.
215
222
.
Crossref
Search ADS
 
25.
Sugiyama
,
K.
,
Harada
,
K.
, and
Hattori
,
S.
, 2008, “
Influence of Impact Angle of Solid Particles on Erosion by Slurry Jet
,”
Wear
0043-1648,
265
, pp.
713
720
.
Crossref
Search ADS
 
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