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Case Studies of Fatigue Life Improvement Using Low Plasticity Burnishing in Gas Turbine Engine Applications

From Lambda Technologies
 

 

Surface enhancement technologies such as shot
peening, laser shock peening (LSP), and low plasticity
burnishing (LPB) can provide substantial fatigue life
improvement. However, to be effective, the
compressive residual stresses that increase fatigue
strength must be retained in service. For successful
integration into turbine design, the process must be
affordable and compatible with the manufacturing
environment. LPB provides thermally stable
compression of comparable magnitude and even
greater depth than other methods, and can be
performed in conventional machine shop environments
on CNC machine tools. LPB provides a means to
extend the fatigue lives of both new and legacy aircraft
engines and ground-based turbines. Improving fatigue
performance by introducing deep stable layers of
compressive residual stress avoids the generally cost
prohibitive alternative of modifying either material or
design.
The x-ray diffraction based background studies of
thermal and mechanical stability of surface
enhancement techniques are briefly reviewed,
demonstrating the importance of minimizing cold work.
The LPB process, tooling, and control systems are
described. An overview of current research programs
conducted for engine OEMs and the military to apply
LPB to a variety of engine and aging aircraft
components are presented. Fatigue performance and
residual stress data developed to date for several case
studies are presented including:
· The effect of LPB on the fatigue performance of
the nickel based super alloy IN718, showing the
fatigue benefit of thermal stability at engine
temperatures.
· An order of magnitude improvement in damage
tolerance of LPB processed Ti-6-4 fan blade
leading edges.
· Elimination of the fretting fatigue debit for Ti-6-4
with prior LPB.
· Corrosion fatigue mitigation with LPB in Carpenter
450 steel.
· Damage tolerance improvement in 17-4PH steel.
Where appropriate, the performance of LPB is
compared to conventional shot peening after exposure
to engine operating temperatures.

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Product Announcements
Lambda Technologies - Low Plasticity Burnishing (LPB™)
LPB™ is a patented, mature, proven surface treatment for improving High-Cycle Fatigue (HCF), Stress Corrosion Cracking (SCC) and damage tolerance performance. (read more)
Lambda Technologies - Surface Enhancement
Surface enhancement offers a variety of benefits ranging from increased life to cost reduction when properly designed and optimized for the material and application. Strength and life can be increased... (read more)
Lambda Technologies - Surface Integrity Studies
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Metal Improvement Company - High-Tech Shot Peening Combats Metal Fatigue
Shot peening is a cold working process in which the surface of a metal part is bombarded with small spherical media called shot. Each piece of shot striking the metal acts as a tiny peening hammer... (read more)
Metal Improvement Company - Unique Laser Peening Services
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Lambda Technologies - Fatigue Design Diagram (FDD) Analysis
Lambda's patented Fatigue Design Diagram (FDD) analysis provides quantitative determination of the optimal compressive residual stress distribution in a component necessary to alleviate typical damage... (read more)
Metal Improvement Company - Shot Peen Forming Services by Metal Improvement
Peen forming is the preferred method of forming aerodynamic contours into aircraft wingskins. It is a dieless forming process that is performed at room temperature. The process is ideal for forming... (read more)
Lambda Technologies - Finite Element Analysis (FEA)
Lambda Technologies provides finite element analysis (FEA) services in support of residual stress design and characterization. (read more)
Integrity Testing Laboratory Inc. - UltraMARS Software
There is a Supporting Software (SS) that is an integral part of UCC Measurement Unit. The SS allows controlling the measurement process, storing the measured and other data and calculating and... (read more)
Lambda Technologies - Controlled Plasticity Burnishing (CPB)
The same tools and control systems developed for low plasticity burnishing (LPB™) can of course be used to deliberately create higher amounts of cold work when warranted. (read more)
Topics of Interest
Surface enhancement technologies such as shot peening (SP), laser shock peening (LSP), and low plasticity burnishing (LPB) can provide substantial fatigue life improvement. However, to be effective,... (Read More)
Surface enhancement technologies such as shot peening (SP), laser shock peening (LSP) and low plasticity burnishing (LPB) can provide mitigation of foreign object damage (FOD), fretting fatigue,... (Read More)
Mechanical surface treatments including shot peening (SP), laser shock peening (LSP) and low plasticity burnishing (LPB) have been shown to introduce compressive residual stresses that improve high... (Read More)
Low Plasticity Burnishing (LPB) has been developed as a rapid, inexpensive surface enhancement method adaptable to existing CNC machine tools. LPB produces a deep layer of compression with minimal... (Read More)
The threat of high cycle fatigue (HCF) failure greatly increases the cost of inspection, maintenance, and operation of legacy turbine engines. As these components continue to age, the probability of... (Read More)
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