Airport jet fuel piping lining issues / Rick A. Huntley in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 35, N° 2 (02/2018)  

[article]  inJOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL) > Vol. 35, N° 2 (02/2018) . - p. 12-16 Titre : Airport jet fuel piping lining issues Type de document : texte imprimé Auteurs : Rick A. Huntley, Auteur ; Cynthia O'Malley, Auteur Année de publication : 2018 Article en page(s) : p. 12-16 Langues : Américain (ame) Catégories : Amines Une amine est un composé organique dérivé de l'ammoniac dont certains hydrogènes ont été remplacés par un groupement carboné. Si l'un des carbones liés à l'atome d'azote fait partie d'un groupement carbonyle, la molécule appartient à la famille des amides. Découvertes en 1849, par Wurtz les amines furent initialement appelées alcaloïdes artificiels. On parle d'amine primaire, secondaire ou tertiaire selon que l'on a un, deux ou trois hydrogènes substitués. Par exemple, la triméthylamine est une amine tertiaire, de formule N(CH3)3. Typiquement, les amines sont obtenues par alkylation d'amines de rang inférieur. En alkylant l'ammoniac, on obtient des amines primaires, qui peuvent être alkylées en amines secondaires puis amines tertiaires. L'alkylation de ces dernières permet d'obtenir des sels d'ammonium quaternaire. D'autre méthodes existent : 1. Les amines primaires peuvent être obtenues par réduction d'un groupement azoture, 2. Les amines peuvent aussi être obtenues par la réduction d'un amide, à l'aide d'un hydrure, 3. L'amination réductrice permet l'obtention d'amines substituées à partir de composés carbonylés (aldéhydes ou cétones), 4. Les amines primaires peuvent être obtenues par la réaction de Gabriel. Analyse des défaillances (fiabilité) Délaminage Epoxydes Expertises Phénoplastes Primaire (revêtement) Revêtements -- Défauts:Peinture -- Défauts Revêtements -- Détérioration:Peinture -- Détérioration Tuyauterie Index. décimale : 667.9 Revêtements et enduits Résumé : An international airport was in the midst of an expansion project. As part of the project, 24-inch-diameter jet fuel piping was being installed by a subcontractor hired by the general contractor that was directly hired by the owner to manage the project. The piping manufacturer installed both the interior and exterior linings. According to the specification, the interior of the pipes was required to be abrasive blast-cleaned to an SSPC-SP 10/NACE No. 2 Near-White Blast Cleaning finish. Additionally, according to the specification, “The standard required at the time of lining shall be a minimum of ISO 8501-1 grade Sa 2 1/2, with a surface profile of 70 ± 20 microns peak-to-trough height. The coating system specified for application to the interior of the piping system was a phenolic lining. According to the product data sheet, the lining material was an amine-cured, modified epoxy-phenolic. The primer’s solids content was approximately 65 percent by volume and the finish coat’s solids content was approximately 63 percent. Both coats had a recommended dry film thickness of 100-to-150 microns per coat. The specification required that the coating be applied in two coats at a dry film thickness of 125 microns per coat. The first 50 mm of the ends of the pipes were required to be left bare. The pipes were manufactured by a different company than the contracted company that was responsible for abrasive blast-cleaning and coating. After application of the interior coating, the pipes were transferred to a protected curing area. The interior of the curing area was heated with portable heaters. The pipes were delivered to the jobsite at the airport in three lots, referred to as Lot 1, Lot 2 and Lot 3. During installation of the pipes, no additional preparation or coating was required to be performed at the welded seams. Sometime after the pipes were shipped to the jobsite, a number of the pipes in Lot 2 had been placed in trenches and were exposed to flooding conditions that partially or fully exposed the pipes to muddy water. Most of the pipes that were exposed to the floodwater were subsequently cleaned with fresh water to remove sand and other contaminants. After the pipes had been exposed to the water, a video survey was performed to determine the condition of the interior coatings and to determine whether contaminants had been removed. It was discovered that the coating had blistered and delaminated in several areas. The delamination was most prevalent at the first several centimeters of the coating at the edges of the pipes. Note de contenu : - Table : Pieces of pipe examined during field visit - Fig. 1. Rust staining on the surface of the lining - Fig. 2. An exudate is visible on the surface of the primer - Fig. 3. Cracking pattern on primer consisting of traces of the gray topcoat - Fig. 4. Good adhesion of the coating on Lot 1 pipe - Fig. 5. Cracking pattern on topcoat and primer - Fig. 6. Rust staining could be scraped away with a knife En ligne : http://www.paintsquare.com/archive/index.cfm?fuseaction=view&articleid=6244 Format de la ressource électronique : Web Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=30372 [article]

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Bedeviled bridges : An answer to a national scandal / Mike O'Donoghue in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 34, N° 5 (05/2017)  

[article]  inJOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL) > Vol. 34, N° 5 (05/2017) . - p. 22-36 Titre : Bedeviled bridges : An answer to a national scandal Type de document : texte imprimé Auteurs : Mike O'Donoghue, Auteur ; Vijay Datta, Auteur ; Glenn Hollins, Auteur Année de publication : 2017 Article en page(s) : p. 22-36 Note générale : Bibliogr. Langues : Américain (ame) Catégories : Anticorrosifs Anticorrosion Expertises Ponts -- entretien et réparations Ponts métalliques -- Revêtements protecteurs Revêtements (produits chimiques):Peinture (produits chimiques) Sulfonate de calcium Index. décimale : 667.9 Revêtements et enduits Résumé : In some quarters of society there is a public outcry regarding the significant corrosion, coating deterioration and safety concerns associated with North American bridges. Against this backdrop, this article will describe the application of an innovative coating system for the rehabilitation and lead abatement of a major truss bridge superstructure in Alberta, Canada more than 20 years ago. At that time, this one-coat, high-ratio calcium sulfonate alkyd (HRCSA) coating system was deemed best-in-test for the superstructure and crevice-corroded joints of the High Level Bridge in Edmonton. The high-performance coating was subsequently applied under the direction and inspection of co-author Glenn Hollins in 1995, as he was the owner’s representative during the evaluation and construction phases. This article outlines the findings of the current inspection of the coating system on the bridge and also explains the specific chemistry of HRCSA technology that indicated years ago that it should have been, and indeed has since proven to be, the “answer” for many bridge rehabilitation coating projects and the "answer" today for what some describe today as a national scandal. Note de contenu : - High-ration calcium sulfonate coatings - The chemistry of HRCSA coatings - The high level bridge - The HRCSA coating application in 1995 on the high level bridge - The HRCSA coating condition up to 2015 on the high level bridge - Mission accomplished - FIGURES : 1 and 2. After project completion and the superstructure between river piers in 2017. - 3. HRCSA full coat application - 4 and 5. Containment structure and resident birds in 1995 - 6. Areas after SSPC-SP-6/NACE ° 3. Commercial blast cleaning and penetrant sealin - 7. HRCSA full coat application - 8. Stripe coating with HRCSA finish coat - TABLES : 1. Factors in HRCSA coatings that influence their performance on bridges - 2. High level bridge rehabilitation project (1995) by the numbers En ligne : http://www.paintsquare.com/archive/index.cfm?fuseaction=view&articleid=6065 Format de la ressource électronique : Web Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=29082 [article]

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Case-8 : Epoxy phenolic coatings / K. Raghuraman in PAINTINDIA, Vol. LXXI, N° 7 (07/2021)  

[article]  inPAINTINDIA > Vol. LXXI, N° 7 (07/2021) . - p. 124-125 Titre : Case-8 : Epoxy phenolic coatings : Painting application : Problem-solving strategies - 8 Type de document : texte imprimé Auteurs : K. Raghuraman, Auteur Année de publication : 2021 Article en page(s) : p. 124-125 Langues : Anglais (eng) Catégories : Copolymère phénolique époxy Expertises Revêtements -- Défauts:Peinture -- Défauts Revêtements organiques Index. décimale : 667.9 Revêtements et enduits Résumé : Phenolic resin based metal decoration coatings and lacquers were sold in a big way one pack, then came epoxy phenolic coatings one pack, both of them thermal cure. Phenolic based coatings though having better chemical and resistance, had few issues on mechanical properties then came fortification of the same using epoxy resin. As of now, from performance point and price point of view, epoxy phenolic coatings has come to stay both in one pack and two pack. En ligne : https://drive.google.com/file/d/1mT0YqzhkzREGGoi9qeveZS2qCBlhjmyh/view?usp=drive [...] Format de la ressource électronique : Pdf Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=36320 [article]

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Coalescing agents : Case study-2 in PAINTINDIA, Vol. LXX, N° 11 (11/2020)  

[article]  inPAINTINDIA > Vol. LXX, N° 11 (11/2020) Titre : Coalescing agents : Case study-2 Type de document : texte imprimé Année de publication : 2020 Langues : Anglais (eng) Catégories : Coalescence (Sciences physiques) Expertises Revêtements -- Analyse:Peinture -- Analyse Revêtements -- Défauts:Peinture -- Défauts Revêtements en phase aqueuse:Peinture en phase aqueuse Index. décimale : 667.9 Revêtements et enduits Résumé : We starting this new column wherein in every issue he will take up practical shop floor problems that a paint manufacturer faces and will try to provide unique, cost effective and out of the box solutions for them. We will of course not disclose the names of the companies involved due to proprietary reasons. En ligne : https://drive.google.com/file/d/1siPHqUpUPGBHf5xbJ1FU0ciIj6JxTqWW/view?usp=drive [...] Format de la ressource électronique : Pdf Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=35200 [article]

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Coating failure : disbonding of an overcoat / Rob Lanterman in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 34, N° 6 (06/2017)  

[article]  inJOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL) > Vol. 34, N° 6 (06/2017) . - p. 11-14 Titre : Coating failure : disbonding of an overcoat Type de document : texte imprimé Auteurs : Rob Lanterman, Auteur Année de publication : 2017 Article en page(s) : p. 11-14 Langues : Américain (ame) Catégories : Adhésion Analyse des défaillances (fiabilité) Expertises Métaux -- Revêtements:Métaux -- Peinture Revêtements -- Analyse:Peinture -- Analyse Revêtements -- Défauts:Peinture -- Défauts Index. décimale : 667.9 Revêtements et enduits Note de contenu : - The subject - The specification - Pre-application testing - Field investigation : Visual examination - Coating thickness - Number of coats - Coating adhesion - Coating samples - Photographs - Visual examination - Coating thickness - Coating adhesion - Coating samples - Laboratory investigation - Microscopic examination - Infrared spectroscopy - Table : Microscopic examination of samples - Figures : An example of spontaneous coating failure - cracking and delamination - 2. A tape adhesion test, showing cohesive separation and a rating of oA En ligne : http://www.paintsquare.com/archive/?fuseaction=view&articleid=6080 Format de la ressource électronique : Web Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=29085 [article]

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Considerations for reconstruction of a bridge exhibiting staining / Cynthia O'Malley in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 35, N° 4 (04/2018)  

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Construction chemicals Q & A forum / Harish Agrawal in PAINTINDIA, Vol. LXX, N° 12 (12/2020)  

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Contradictory information in a project specification / Chrissy Stewart in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 33, N° 9 (09/2016)  

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A diagnostic expert system for the dyeing of protein fibres / Weethima Sawatwarakul in COLORATION TECHNOLOGY, Vol. 131, N° 5 (10/2015)  

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Disbonded coating and cathodic protection shielding for pipelines and utility poles / Mehrooz Zamanzadeh in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 34, N° 7 (07/2017)  

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Elevated water tank coating warranty repairs / Cynthia O'Malley in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 34, N° 2 (02/2017)  

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Equifinality : specifying performance / Troy E. Fraebel in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 33, N° 3 (03/2016)

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Expert system selects adhesives for composite materials joints / Robert B. Allen in ADHESIVES AGE, Vol. 38, N° 7 (06/1995)  

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Expert system to troubleshoot in manufacturing plant / Holger Möller in ADHESION - ADHESIVES + SEALANTS, N° 2/2015 (2015)  

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L'expertise en corrosion, les bases de données et les systèmes experts / Sylvain Audisio in MATERIAUX & TECHNIQUES, Vol. 99, N° 1 (2011)  

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Exploring the effects of non-medical versus medical approaches to the management of skin aging in women over sixty / Slobodanka Tamburic in INTERNATIONAL JOURNAL OF COSMETIC SCIENCE, Vol. 34, N° 5 (10/2012)  

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Failure at the jail / Richard A. Burgess in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 33, N° 4 (04/2016)

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Failure of a bridge deck topcoat / Warren Brand in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 33, N° 11 (11/2016)  

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Fundamentals of stripe coating in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 31, N° 1 (01/2014)

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A hairy situation : coating failure in a 10 000 gallon shampoo tank / Warren Brand in JOURNAL OF PROTECTIVE COATINGS & LININGS (JPCL), Vol. 33, N° 5 (05/2016)

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