Characterizing Chemical Bond Strengths Using Generalized Compliance Constants

Durability of adhesive bonded joints in moisture and salt spray environments is essential to USAF aircraft. Structural bonding technology for aerospace applications has depended for many years on the preparation of aluminum surfaces by a sulfuric acid/sodium dichromate (FPL etch) treatment. Recently, specific thin film anodizing techniques, phosphoric acid, and chromic acid anodizing have been developed which not only provide good initial bond strengths but vastly improved environmental durability. These thin anodic films are in contrast to the commonly used thick anodic films such as the sulfuric acid or "hard" sulfuric acid anodic films which are highly corrosion resistant in themselves, but which do not provide good initial bond strengths, particularly in low temperature peel.The objective of this study was to determine the characteristics of anodic films on aluminum alloys that make them corrosion resistant. The chemical composition, physical morphology and structure, and mechanical properties of the thin oxide films were to be defined and correlated with the environmental stability of these surfaces in humidity and salt spray. It is anticipated that anodic film characteristics and corrosion resistance will vary with the anodizing processing conditions.

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Total etch dentin bonding systems: scanning electron microscopy of the resin-dentin hybrid layer

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100130092 ◽

1992 ◽

Vol 50 (2) ◽

pp. 1092-1093

Author(s):

Jorge Perdigao

Keyword(s):

Composite Resin ◽

Mechanical Interlocking ◽

Hybrid Layer ◽

Agent Based ◽

Dentin Bonding ◽

Acid Agent ◽

Bond Strengths ◽

Main Component ◽

Bonding Systems ◽

New Generation

In 1955, Buonocore introduced the etching of enamel with phosphoric acid. Bonding to enamel was created by mechanical interlocking of resin tags with enamel prisms. Enamel is an inert tissue whose main component is hydroxyapatite (98% by weight). Conversely, dentin is a wet living tissue crossed by tubules containing cellular extensions of the dental pulp. Dentin consists of 18% of organic material, primarily collagen. Several generations of dentin bonding systems (DBS) have been studied in the last 20 years. The dentin bond strengths associated with these DBS have been constantly lower than the enamel bond strengths. Recently, a new generation of DBS has been described. They are applied in three steps: an acid agent on enamel and dentin (total etch technique), two mixed primers and a bonding agent based on a methacrylate resin. They are supposed to bond composite resin to wet dentin through dentin organic component, forming a peculiar blended structure that is part tooth and part resin: the hybrid layer.

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Push-Out Bond Strengths of Tooth-colored Posts Bonded With Different Adhesive Systems

Yearbook of Dentistry ◽

10.1016/s0084-3717(08)70034-5 ◽

2006 ◽

Vol 2006 ◽

pp. 36-37 ◽

Cited By ~ 1

Author(s):

P.C. Belvedere

Keyword(s):

Adhesive Systems ◽

Bond Strengths ◽

Push Out

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Density functionals and chemical bond, diatomic molecules

Journal de Chimie Physique ◽

10.1051/jcp/1989860853 ◽

1989 ◽

Vol 86 ◽

pp. 853-859 ◽

Cited By ~ 6

Author(s):

Federico Moscardó ◽

José Pérez-Jordá ◽

Emilio San-Fabián

Keyword(s):

Chemical Bond ◽

Diatomic Molecules ◽

Density Functionals

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Monoblocks :Hype or Hope!!! “an In-Vitro Comparison of Push Out Bond Strengths of Resilon with Two Different Resin-Based Sealers

International Journal of Scientific Research ◽

10.15373/22778179/mar2013/98 ◽

2012 ◽

Vol 2 (3) ◽

pp. 317-319

Author(s):

Dr.Priyanka Sarangi ◽

◽

Dr.Veerendra M Uppin

Keyword(s):

Bond Strengths ◽

Push Out ◽

In Vitro Comparison

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The Chemical Bond Across the Periodic Table: Part 1 – First Row and Simple Metals

10.26434/chemrxiv.11860941.v1 ◽

2020 ◽

Author(s):

Gabriel Freire Sanzovo Fernandes ◽

Leonardo dos Anjos Cunha ◽

Francisco Bolivar Correto Machado ◽

Luiz Ferrão

Keyword(s):

Physical Chemistry ◽

Chemical Bond ◽

Materials Science ◽

Chemical Elements ◽

Orbital Theory ◽

Solid State Physics ◽

Band Theory ◽

Van Der Waals Clusters ◽

Earth Systems ◽

Chemical Content

<p>Chemical bond plays a central role in the description of the physicochemical properties of molecules and solids and it is essential to several fields in science and engineering, governing the material’s mechanical, electrical, catalytic and optoelectronic properties, among others. Due to this indisputable importance, a proper description of chemical bond is needed, commonly obtained through solving the Schrödinger equation of the system with either molecular orbital theory (molecules) or band theory (solids). However, connecting these seemingly different concepts is not a straightforward task for students and there is a gap in the available textbooks concerning this subject. This work presents a chemical content to be added in the physical chemistry undergraduate courses, in which the framework of molecular orbitals was used to qualitatively explain the standard state of the chemical elements and some properties of the resulting material, such as gas or crystalline solids. Here in Part 1, we were able to show the transition from Van der Waals clusters to metal in alkali and alkaline earth systems. In Part 2 and 3 of this three-part work, the present framework is applied to main group elements and transition metals. The original content discussed here can be adapted and incorporated in undergraduate and graduate physical chemistry and/or materials science textbooks and also serves as a conceptual guide to subsequent disciplines such as quantum chemistry, quantum mechanics and solid-state physics.</p>

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