Effect of irradiation dose on the structure and tribological performance of Ti:WS 2 /PFPE composite lubricating system in atomic oxygen environment

Response Mechanism of Structure and Tribological Properties of WS2/P201 Hybrid Lubrication System Under Atomic Oxygen Irradiation

(2023) Jian Liu et al.   TRIBOLOGY TRANSACTIONS

Interactive effect between WS2 films with different structures and space oils for improvement of tribological performance

(2022) Zhen Yan et al.   TRIBOLOGY INTERNATIONAL

Synergistic effect and long-term lubricating mechanism of WS2/oil combinations determined via oil molecule structures in vacuum

(2022) Zhen Yan et al.   TRIBOLOGY INTERNATIONAL

POSS-based ionic liquid lubricants with excellent resistance to atomic oxygen irradiation

(2022) Qiangliang Yu et al.   TRIBOLOGY INTERNATIONAL

Two strategies to improve the lubricating performance of WS2 film for space application

(2022) Jian Liu et al.   TRIBOLOGY INTERNATIONAL

A review of advances in tribology in 2020–2021

(2022) Yonggang Meng et al.   Friction

MoS2 Lubricating Film Meets Supramolecular Gel: A Novel Composite Lubricating System for Space Applications

(2021) Jiaying Zhang et al.   ACS Applied Materials & Interfaces

Improving the tribological and anti-corrosion property of the WS2 film through Ta doping

(2021) Jun Yang et al.   VACUUM

Dependence of Friction and Wear on the Microstructures of WS2 Films under a Simulated Space Environment

(2020) Zhen Yan et al.   ACS Applied Materials & Interfaces

Synergistic lubricating effect of graphene/ionic liquid composite material used as an additive

(2020) Lincong Liu et al.   Friction

Exploring the atmospheric tribological properties of MoS2-(Cr, Nb, Ti, Al, V) composite coatings by high throughput preparation method

(2020) Xiaolong Lu et al.   TRIBOLOGY INTERNATIONAL

Cabbage-like WS2/Ni bilayer thin film for improved tribological property

(2018) Desheng Wang et al.   SURFACE & COATINGS TECHNOLOGY

Tribological properties of WS 2 /MoS 2 -Ag composite films lubricated with ionic liquids under vacuum conditions

(2017) Xin Quan et al.   TRIBOLOGY INTERNATIONAL

Powder metallurgy processed metal-matrix friction materials for space applications

(2017) Yelong Xiao et al.   Friction

Influences of Space Irradiations on the Structure and Properties of MoS2/DLC Lubricant Film

(2016) Yanxia Wu et al.   TRIBOLOGY LETTERS

Highly Oriented MoS2 Coatings: Tribology and Environmental Stability

(2016) John F. Curry et al.   TRIBOLOGY LETTERS

Erosion Mechanism of MoS2-Based Films Exposed to Atomic Oxygen Environments

(2015) Peng Wang et al.   ACS Applied Materials & Interfaces

Effects of atomic oxygen exposure on the tribological performance of ZrO2-reinforced polyimide nanocomposites for low earth orbit space applications

(2015) Mei Lv et al.   COMPOSITES PART B-ENGINEERING

Tribological Performance and Lubrication Mechanism of Solid–Liquid Lubricating Materials in High-Vacuum and Irradiation Environments

(2015) Mei Lv et al.   TRIBOLOGY LETTERS

Investigation of crystalline and amorphous MoS 2 based coatings: Towards developing new coatings for space applications

(2015) G. Colas et al.   WEAR

Tribological behavior of WS2-based solid/liquid lubricating systems dominated by the surface properties of WS2 crystallographic planes

(2015) Xin Quan et al.   RSC Advances

Highly stable tribological performance and hydrophobicity of porous polyimide material filled with lubricants in a simulated space environment

(2015) Mei Lv et al.   RSC Advances

Carbon-based solid-liquid lubricating coatings for space applications-A review

(2015) Xiaoqiang Fan et al.   Friction

Effect of proton irradiation on the friction and wear properties of polyimide

(2014) Mei Lv et al.   WEAR

Synthesis of Au–MoS2 Nanocomposites: Thermal and Friction-Induced Changes to the Structure

(2013) T. W. Scharf et al.   ACS Applied Materials & Interfaces

Tribological behavior of DLC/IL solid–liquid lubricating coatings in a high-vacuum condition with alternating high and low temperatures

(2013) Liping Wang et al.   WEAR