Volume 15 (2024)
Volume 14 (2023)
Volume 13 (2022)
Volume 12 (2021)
Volume 11 (2020)
Volume 10 (2019)
Volume 9 (2018)
Volume 8 (2017)
Volume 7 (2016)
Volume 6 (2015)
Volume 5 (2014)
Volume 4 (2013)
Volume 3 ( 2012)
Volume 2 (2011)
Volume 1 (2010)
Thin Films, Materials Surface & Interfaces
Automotive Plasma Painting Process

Giulia F. da Silva; Jorge Conceição Jr.; Daiane T. da Silva; Everton Dos Santos

Volume 14, Issue 4 , October 2023, , Pages 2304-1734

https://doi.org/10.5185/amlett.2023.041734

Abstract
  This study investigates the deposition of hydrogenated diamond-like carbon (DLC) films on SAE 1045 alloy samples using a plasma-enhanced chemical vapor deposition (PECVD) system and evaluates their potential as automotive coatings. Copper doping was performed via a hollow copper cathode to examine its ...  Read More

Automotive Plasma Painting Process


Thin Films, Materials Surface & Interfaces
Effects of Initial Surface Roughness and Sliding Speed Study on the Tribological Characteristics of AA6061 and CuZn37Pb2 Alloys

Bougoffa M. Seyf Eddine; Sayhia Benchaa

Volume 14, Issue 3 , July 2023, , Pages 2303-1727

https://doi.org/10.5185/amlett.2023.031727

Abstract
  The paper examines the influence of initial surface roughness and sliding speed on friction and wear behavior of AA6061 aluminum alloy and brass alloy (CuZn37Pb2) under dry contact using a CSM tribometer. Surface roughness of materials studied were measured using optical profilometer. Rough surfaces ...  Read More

Effects of Initial Surface Roughness and Sliding Speed Study on the Tribological Characteristics of AA6061 and CuZn37Pb2 Alloys


Nanomaterials & Nanotechnology
Gas Sensing Investigation of Porous Hot-wire Molybdenum Disulphide Thin Films

Giorgos Papadimitropoulos; Angelika Balliou; Dimitris Kouvatsos; Dimitris Davazoglou

Volume 13, Issue 1 , January 2022, , Pages 2201-1689

https://doi.org/10.5185/amlett.2022.011689

Abstract
  The gas sensing properties of porous hot-wire MoS2 (hwMoS2) thin films have been studied. The films were deposited on oxidized silicon substrates by heating a molybdenum filament in a vacuum chamber in H2S environment. The samples remain at room temperature during the deposition and the grown films are ...  Read More