Numerical Study of Coupled Electrical-Thermal-Mechanical-Wear Behavior in Electrical Contacts

Fretting wear behavior of brass/copper-graphite composites as a contactor material under electrical contact

(2020) Xin-long Liu et al.   INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES

Effects of oxidation layer and roughness on the fretting wear behavior of copper under electrical contact

(2019) Li-ping He et al.   Materials Research Express

Effect of electrical current density, apparent contact pressure, and sliding velocity on the electrical sliding wear behavior of Cu–Ti3AlC2 composites

(2019) Hao Zhao et al.   WEAR

Development of a fretting corrosion model for metallic interfaces using adaptive finite element analysis

(2018) Khosro Fallahnezhad et al.   FINITE ELEMENTS IN ANALYSIS AND DESIGN

Effect of different atmospheres on the electrical contact performance of electronic components under fretting wear

(2018) Xin-Long Liu et al.   JOURNAL OF PHYSICS D-APPLIED PHYSICS

Friction and wear properties of MoS 2 -based coatings sliding against Cu and Al under electric current

(2018) Peng Wang et al.   TRIBOLOGY INTERNATIONAL

Wear phenomena and tribofilm formation of copper/copper-graphite sliding electrical contact materials

(2018) M. Grandin et al.   WEAR

A dynamical FEA fretting wear modeling taking into account the evolution of debris layer

(2018) P. Arnaud et al.   WEAR

Investigation on thermal response in fretting sliding with the consideration of plastic dissipation, surface roughness and wear

(2018) Fei Shen et al.   INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES

Prediction of electrical contact endurance subject to micro-slip wear using friction energy dissipation approach

(2018) Xiangjun Jiang et al.   Friction

Effect of grain size on the electrical failure of copper contacts in fretting motion

(2017) H.J. Noh et al.   TRIBOLOGY INTERNATIONAL

Effect of elevated temperature on fretting wear under electric contact

(2017) Xin-long Liu et al.   WEAR

Scale levels of damage to the raceway of a spherical roller bearing

(2016) P.O. Maruschak et al.   ENGINEERING FAILURE ANALYSIS

Numerical Simulation of Temperature–Voltage Relation in Electrical Contacts and Correction of Classical Kohlrausch’s Equation

(2016) Wanbin Ren et al.   IEEE TRANSACTIONS ON ELECTRON DEVICES

Electro-thermo-mechanical contact model for bulk metal forming under application of electrical resistance heating

(2016) Michael Terhorst et al.   INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY

A non-local approach based on the hypothesis of damage dissipation potential equivalence to the effect of stress gradient in fretting fatigue

(2016) Fei Shen et al.   INTERNATIONAL JOURNAL OF FATIGUE

Effect of low electrical potentials on the microhardness of metallic materials

(2016) D. V. Orlova et al.   PHYSICS OF THE SOLID STATE

Effect of displacement and humidity on contact resistance of copper electrical contacts

(2016) I.H. Sung et al.   TRIBOLOGY INTERNATIONAL

A damage mechanics approach to fretting fatigue life prediction with consideration of elastic–plastic damage model and wear

(2015) Fei Shen et al.   TRIBOLOGY INTERNATIONAL

Effects of fatigue damage and wear on fretting fatigue under partial slip condition

(2015) Fei Shen et al.   WEAR

Effects of current load on wear and fretting corrosion of gold-plated electrical contacts

(2013) Wanbin Ren et al.   TRIBOLOGY INTERNATIONAL

Influence of contact potential difference and electric potential on the microhardness of metals

(2011) L. B. Zuev et al.   PHYSICS OF THE SOLID STATE

Computational study on the effect of contact geometry on fretting behaviour

(2011) T. Zhang et al.   WEAR

Introduction of an exponential formulation to quantify the electrical endurance of micro-contacts enduring fretting wear: Application to Sn, Ag and Au coatings

(2011) S. Fouvry et al.   WEAR

Numerical modeling of electrical contacts

(2009) C. Weißenfels et al.   COMPUTATIONAL MECHANICS

Finite element modelling of fretting wear surface evolution: Application to a Ti–6A1–4V contact

(2007) C. Paulin et al.   WEAR