Fretting Fatigue Properties of WC-Co Thermal Sprayed NiCrMo Steel

2008 ◽  
pp. 385-385-15 ◽  
Author(s):  
M Okane ◽  
K Shiozawa ◽  
M Hiki ◽  
K Suzuki
Keyword(s):  
Fretting Fatigue ◽  
Fatigue Properties

The Fatigue Behaviour of a High Strength CrNi-Steel Regarding Fretting Fatigue

2012 ◽  
Author(s):  
Thomas Christiner ◽  
Johannes Reiser ◽  
István Gódor ◽  
Wilfried Eichlseder ◽  
Franz Trieb ◽  
...  
Keyword(s):  
High Strength ◽  
Contact Problems ◽  
Fatigue Behaviour ◽  
Fretting Fatigue ◽  
Service Performance ◽  
Fatigue Properties ◽  
Material Behaviour ◽  
Reliable Prediction ◽  
Damage And Failure ◽  
Lubrication Conditions

In many assemblies of moving components, contact problems under various lubrication conditions are lifetime-limiting. There, relative motion of contacting bodies, combined with high loads transmitted via the contact surface lead to fretting fatigue failure. For a reliable prediction of in service performance load type, different damage and failure mechanisms that may be activated during operation have to be known. In this contribution selected results of a currently conducted research project are presented. The aim of this study was to examine the material behaviour of a surface stressed steel. The influence of the fretting regime on fatigue properties has been investigated.

scholarly journals Fretting Fatigue Properties of Zr-Based Bulk Amorphous Alloy in Phosphate-Buffered Saline Solution

2004 ◽  
Vol 45 (4) ◽  
pp. 1233-1238 ◽  
Author(s):  
Norio Maruyama ◽  
Sachiko Hiromoto ◽  
Masato Ohnuma ◽  
Takao Hanawa
Keyword(s):  
Amorphous Alloy ◽  
Saline Solution ◽  
Fretting Fatigue ◽  
Fatigue Properties ◽  
Bulk Amorphous Alloy ◽  
Phosphate Buffered Saline

S043022 Fretting fatigue properties of titanium alloy with CrN thin film

2011 ◽  
Vol 2011 (0) ◽  
pp. _S043022-1-_S043022-4
Author(s):  
Hiroshi MEISHIN ◽  
Shota TANIMOTO ◽  
Daisuke YONEKURA ◽  
Ri-chi MURAKAMI
Keyword(s):  
Thin Film ◽  
Titanium Alloy ◽  
Fretting Fatigue ◽  
Fatigue Properties

Fretting Fatigue Properties of Material used for Femoral Replacement

2000 ◽  
Vol 2000.3 (0) ◽  
pp. 239-240
Author(s):  
Motoki TAKATA ◽  
Takuya YAMAZAKI ◽  
Byungjun LEE ◽  
Jun KOMOTORI
Keyword(s):  
Fretting Fatigue ◽  
Fatigue Properties

S0401-2-4 Fretting fatigue properties of titanium alloy with hard thin film.

2010 ◽  
Vol 2010.1 (0) ◽  
pp. 315-316
Author(s):  
Shota Tanimoto ◽  
Daisuke Yonekura ◽  
Ri-ichi Murakami
Keyword(s):  
Thin Film ◽  
Titanium Alloy ◽  
Fretting Fatigue ◽  
Fatigue Properties

P85 Fretting fatigue properties of stainless steels in hydrogen gas environment

2005 ◽  
Vol 2005 (0) ◽  
pp. 593-594
Author(s):  
Naoki NOYAMA ◽  
Yasuhiro TANAKA ◽  
Masanobu KUBOTA ◽  
Chu SAKAE ◽  
Yoshiyuki KONDO
Keyword(s):  
Stainless Steels ◽  
Fretting Fatigue ◽  
Hydrogen Gas ◽  
Fatigue Properties ◽  
Gas Environment

scholarly journals Influence of Ultrasonic Surface Rolling Process and Shot Peening on Fretting Fatigue Performance of Ti-6Al-4V

2021 ◽  
Author(s):  
Ning Wang ◽  
Jin long Zhu ◽  
Bai Liu ◽  
Xiancheng Zhang ◽  
Jiamin Zhang ◽  
...  
Keyword(s):  
Fatigue Life ◽  
Shot Peening ◽  
Surface Hardness ◽  
Rolling Process ◽  
Fretting Fatigue ◽  
Fatigue Properties ◽  
X Ray Diffraction ◽  
X Ray ◽  
Surface Strengthening ◽  
Stress Layer

Abstract The shot-peening (SP) and ultrasonic surface rolling process (USRP) were performed on Ti–6Al-4V plate specimens. The surface hardness and residual stresses of the material were tested by vickers indenter and X-ray diffraction residual stress analyzer. The effects of different surface strengthening on its fretting fatigue properties were verified by fretting fatigue experiments. It is shown (i) that the fretting fatigue life of Ti–6Al-4V effectively improved after USRP and SP and(ii)that the surface integrity of specimens after USRP is the best, which has deeper residual compressive stress layer and more refined grain. The fretting fatigue fracture surface and wear morphology of the samples were studied and analyzed by means of microscopic observation, and the mechanism of improving fretting fatigue life by surface strengthening process was further explained

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