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Title: A metallurgical approach to improved cavitation-erosion resistance

Journal Article · · Journal of Materials Engineering and Performance
 [1];  [2]
  1. Daedalus Associates, Inc., Mountain View, CA (United States)
  2. Cornice Engineering, Inc., Durango, CO (United States)
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Although cavitation erosion in hydraulic systems is an old problem, the damage mechanism that culminates in material loss was not known with certainty until recently. An investigation is described that aimed at clarifying the damage mechanism in cavitation erosion and applying that knowledge to make hydraulic equipment more resistant to cavitation. Strong correlations were established between cyclic deformation (fatigue) parameters and cavitation-erosion rates. This identification facilitated the search for more resistant materials. Finite element modeling confirmed that localized impacts on metal surfaces produce fatigue like deformations and damage accumulation. Among available materials, near-equiatomic alloys of nickel and titanium are anomalously resistant to low-cycle fatigue and thus should be very resistant to cavitation erosion. Experiments confirmed the expected erosion resistance. Building large machines entirely out of NiTi is impractical, however, and a way of selectively cladding common constructional materials is required. Because NiTi has not been fusion welded successfully to other alloys, explosive bonding of thin NiTi plates to structural steel was investigated. Excellent welds were achieved, and the erosion resistance of the resulting clads has been demonstrated. Comparisons are made to other erosion processes and to other erosion-resistant materials, and some applications to hydraulic devices are suggested.

Sponsoring Organization:
USDOE
OSTI ID:
554086
Journal Information:
Journal of Materials Engineering and Performance, Vol. 6, Issue 5; Other Information: PBD: Oct 1997
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
EROSION
NICKEL ALLOYS
TITANIUM ALLOYS
CAVITATION
FATIGUE
DAMAGE
CORRELATIONS
MATHEMATICAL MODELS
FINITE ELEMENT METHOD
BONDING