John B. Campbell scite author profile

Most metals start their lives in the liquid state, and are subjected to various transfers involving pouring or other types of surface turbulence. These actions entrain (fold in) the surface film to create entrainment defects. These are principally (a) bubbles that in turn create bubble trails; (b) bifilms; doubled over surface films, that act as cracklike defects; and (c) sundry entrained debris, collectively known as exogenous inclusions. The bifilm is the subject of this perspective. It appears to be a common, but serious and almost overlooked metallurgical defect. Analysis of bifilms provides a simple, powerful and elegant concept based on an enduring legacy from turbulence during the pouring of liquid metals. Usually large populations of bifilms are introduced into metals at an early stage of their production. In general their presence has been unsuspected because although they can have large area, they can often be only nanometres thick and not easily detected by conventional non-destructive techniques. The populations of cracks in suspension in liquid metal explains many otherwise inexplicable features of cast products such as porosity, hot tearing, the morphologies of second phases, and impaired reliability of mechanical properties. The fundamental difference between such entrained defects (associated with a macroscopic unbonded interface) and defects and inclusions grown in the melt is seen to be of central significance for the failures of metals by mechanical or corrosion type mechanisms. For wrought products the continued presence of bifilms, now usually extended and elongated and mainly occupying grain boundaries, appears to offer explanations for many metallurgical phenomena. Bifilms are likely to influence the development of texture, and are the most likely source for many types of failure in the solid state. Thus the limitations to superplastic forming, cavitation in tertiary creep, pitting corrosion of various types and stress corrosion cracking are likely to be profoundly affected by bifilms. Although the effects of bifilms can be reduced by expensive post-casting operations such as hipping or working, the major future potential lies in techniques for their avoidance. Some casting operations are already taking some first steps in new technology for their avoidance, and benefiting technically and commercially.

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The nucleation of Fe-Rich phases on oxide films in Al-11.5Si-0.4Mg cast alloys

Cao¹,

Campbell²

2003

Metall Mater Trans A

198

101

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Extreme Response Style in Cross-Cultural Research

Chun¹,

Campbell

Yoo

1974

Journal of Cross-Cultural Psychology

107

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The neglect of the consequences of the Extreme Response Style (ERS) phenomenon in cross-cultural research is documented through a selective literature review. Consideration of ERS differences permitted derivation of three logical consequences that pertain to (a) differences in group means, (b) the internal consistency of measures and the correlation among measures, and (c) results of dimensional analyses. Comparison of U.S. and Korean student samples on a 1 30-item questionnaire revealed stronger ERS in the U.S. sample. Furthermore, the predictions derived from ERS differences were confirmed, thus demonstrating the credibility of the ERS argument. General implications of ERS for cross-cultural research are discussed.

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Effects of Stable Flies (Diptera: Muscidae) on Weight Gains of Grazing Yearling Cattle

Campbell¹,

Skoda²,

Berkebile³

et al. 2001

123

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The tribonucleation of bubbles

Campbell¹

1968

J. Phys. D: Appl. Phys.

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John B. Campbell

Entrainment Defects

The nucleation of Fe-Rich phases on oxide films in Al-11.5Si-0.4Mg cast alloys

Extreme Response Style in Cross-Cultural Research

Effects of Stable Flies (Diptera: Muscidae) on Weight Gains of Grazing Yearling Cattle

The tribonucleation of bubbles

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