Fetal and Neonatal Oxygen Environment

Abstract An overview of the characterisation of rust by colour is presented. Each distinct rust colour is caused by atmospheric impurities, high or low moisture content and high or low oxygen environment over time. Yellow rust is mainly due to the high moisture environment over a period of time, which drips. Brown rust is dry, crusty and due to water and oxygen contact with localised patches on component surfaces. Black rust, the most stable form, occurs in low moisture and low oxygen environment. The rust residue shows where the reaction started, especially in contact with chlorides. The causative factors of red rust are atmospheric and similar to black rust in a chloride-containing environment. The effect of packaging, manufacturing and environmental factors on rust colour is briefly discussed. Visual characterization of rust could pre-empt root causes and analytical tools for validation. The limitations of these concepts are mentioned and directions for future research highlighted.

Download Full-text

Topographic characteristics of EEG during a saturation dive to 31 ATA helium-oxygen environment

Electroencephalography and Clinical Neurophysiology ◽

10.1016/0013-4694(85)90390-6 ◽

1985 ◽

Vol 61 (3) ◽

pp. S97

Author(s):

S. Matsuoka ◽

S. Okuda ◽

T. Ishikawa

Keyword(s):

Oxygen Environment ◽

Topographic Characteristics

Download Full-text

Enhancement of Adhesion Between Cu Thin Film and Polyimide Modified by Ion Assisted Reaction

MRS Proceedings ◽

10.1557/proc-504-437 ◽

1997 ◽

Vol 504 ◽

Cited By ~ 1

Author(s):

S. C. Choi ◽

K. H. Kim ◽

H-J. Jung ◽

C. N. Whang ◽

S. K. Koha

Keyword(s):

Ion Irradiation ◽

Polyimide Film ◽

Wetting Angle ◽

Free Energies ◽

Polyimide Films ◽

Oxygen Environment ◽

X Ray ◽

Oxygen Ion ◽

Oxygen Gas ◽

Cu Thin Film

ABSTRACTPolyimide films are modified by ion assisted reaction method using various ion beams in various gases environments. Amount of ion and blown gases rate were changed from 5 × 1014 to 1 × 1017 and from 0 to 8 sccm, respectively. Wetting angles between water and polyimide films modified by Ar+ ion without oxygen blowing decrease from 67° to 400° and surface free energies increase from 46 to 64 dyne/cm2. Wetting angle of polyimide films modified by Ar+ ion in an oxygen environment decreases to 12° and surface free energy increases to 72 dyne/cm2. The lowest wetting angle was obtained by oxygen ion irradiation in the oxygen gas environment and its value was 7°. In the case of polyimide film modified by Ar+ ions in an oxygen environment, the wetting angle increases up to 65° when it kept in air and that increases up to 46° when it kept in water after 5 day. In the case of polyimide film modified by O2+ ion in oxygen environment, however, the wetting angle of polyimide film dose not increase. X-ray photoelectron analysis shows that the chemical bonds between polyimide components are severed by ion irradiation and hydrophilic groups such as CO and C=O are formed by the reaction between newly formed radicals and blown oxygen. It was found that adhesion between Cu and polyimide modified by ion assisted reaction was improved. The main reason of the enhanced adhesion is due to the reaction between Cu and C-O or C=O groups formed by ion assisted reaction on the polyimide surface.

Download Full-text