Publication detail
Identification of zinc-iron intermetallic phases with laser ablation inductively coupled plasma optical emission and mass spectrometry using gaussian Nd:YAG 1064 (IR), 266 (UVG) and flat beam ArF* 193 nm (UVF) lasers
HRDLIČKA, A. KANICKÝ, V. OTRUBA, V. NOVOTNÝ, K. ZMRLÝ, M. DETLEF, G.
Czech title
Identifikace Fe-Zn intermetalických fází pomocí laserové ablace - indukčně vázaného plazmatu s optickou emisí a hmotnostní spektroskopií s použitím Nd:YAG 1064 (IR), 266 (UVG) and flat beam ArF* 193 nm (UVF) laserů
English title
Identification of zinc-iron intermetallic phases with laser ablation inductively coupled plasma optical emission and mass spectrometry using gaussian Nd:YAG 1064 (IR), 266 (UVG) and flat beam ArF* 193 nm (UVF) lasers
Type
journal article - other
Language
en
Original abstract
Laser ablation (LA) sampling with inductively coupled plasma and optical emission or mass detection was used for analysis of layers with intermetallic Zn-Fe phases on steel substrate instead of routinely used techniques as electron microprobe X-ray microanalysis (EPXMA) or Moessbauer spectroscopy. These methods are time-consuming and more expensive than LA. Thus, LA potential to replace them was tested here. Average ablation rate in the phases, tailing effects and signal stoichiometry were investigated. Found non-stoichiometric levels of Fe signals are subjected to further research of fractionation phenomena at LA of these materials.
Czech abstract
Byla použita laserová ablace (LA) s indukčně vázaným plazmatem a optickou emisní nebo hmotnostní detekcí pro analýzu vrstev s intermetalickými Zn-Fe fázemi na oceli namísto zdlouhavějších a nákladnějších technik, jakými je elektronová mikrosonda nebo Moessbauerova spektroskopie. Zjišťovalo se, do jaké míry je může LA nahradit. Zkoumala se ablační rychlost v jednotlivých fázích, chvostování signálů a stechiometrie. Indikovaná nestechiometrická množství Fe jsou předmětem dalšího výzkumu frakcionace u těchto materiálů
English abstract
Laser ablation (LA) sampling with inductively coupled plasma and optical emission or mass detection was used for analysis of layers with intermetallic Zn-Fe phases on steel substrate instead of routinely used techniques as electron microprobe X-ray microanalysis (EPXMA) or Moessbauer spectroscopy. These methods are time-consuming and more expensive than LA. Thus, LA potential to replace them was tested here. Average ablation rate in the phases, tailing effects and signal stoichiometry were investigated. Found non-stoichiometric levels of Fe signals are subjected to further research of fractionation phenomena at LA of these materials.
Keywords in Czech
intermetalické fáze, laserová ablace, hloubkový profil
Keywords in English
intermetallic phases, laser ablation, depth profile
Released
02.11.2006
Publisher
ICP Information Newsletter, Inc.
Location
Amherst,US
ISSN
0161-6951
Journal
ICP Information Newsletter
Volume
2006(32)
Number
11
Pages from–to
114–115
Pages count
2
BIBTEX
@article{BUT46724,
author="Martin {Zmrzlý},
title="Identification of zinc-iron intermetallic phases with laser ablation inductively coupled plasma optical emission and mass spectrometry using gaussian Nd:YAG 1064 (IR), 266 (UVG) and flat beam ArF* 193 nm (UVF) lasers",
journal="ICP Information Newsletter",
year="2006",
volume="2006(32)",
number="11",
month="November",
pages="114--115",
publisher="ICP Information Newsletter, Inc.",
address="Amherst,US",
issn="0161-6951"
}