Abrégé

There is disclosed a plasma electrolytic oxidation process for generating a ceramic coating on a surface of a workpiece made of an alloy comprising a base metal and one or more secondary metals. A series of electrical current pulses are applied to the metallic workpiece in an electrolyte so as to generate plasma discharges at the surface of the metallic workpiece to form the ceramic coating. The electrolyte comprises at least one chelating agent selected to bind with ions of at least one of the one or more secondary metals that are released from the workpiece during the plasma electrolytic oxidation process. This helps to prevent or hinder a concentration of secondary metal compounds at an outer surface of the ceramic coating.

Classes IPC  ?

• C25D 11/02 - Anodisation
• C25D 11/06 - Anodisation de l'aluminium ou de ses alliages caractérisée par les électrolytes utilisés
• C25D 11/30 - Anodisation de magnésium ou de ses alliages
• C25D 11/34 - Anodisation de métaux ou d'alliages non prévus dans les groupes

Abrégé

There is disclosed a method of forming a high luminosity inorganic coating on an aluminium or aluminium alloy article, wherein the article is immersed in an electrolyte and subjected to a plasma anodising process, wherein the coating has a luminosity L*≥80.0% and comprises at least 50 wt % gamma alumina. Also disclosed are inorganic coatings formed by the method, and aluminium or aluminium alloys coated by the method.

Classes IPC  ?

• C25D 11/02 - Anodisation
• C25D 11/14 - Production de couches colorées en totalité
• C25D 11/10 - Anodisation de l'aluminium ou de ses alliages caractérisée par les électrolytes utilisés contenant des acides organiques

Abrégé

There is disclosed a method of forming a high luminosity inorganic coating on an aluminium or aluminium alloy article, wherein the article is immersed in an electrolyte and subjected to a plasma anodising process, wherein the coating has a luminosity L*≥ 80.0% and comprises at least 50wt% gamma alumina. Also disclosed are inorganic coatings formed by the method, and aluminium or aluminium alloys coated by the method.

Classes IPC  ?

• C25D 11/02 - Anodisation
• C25D 11/10 - Anodisation de l'aluminium ou de ses alliages caractérisée par les électrolytes utilisés contenant des acides organiques

Abrégé

−1), formed by plasma electrolytic oxidation on a surface comprising aluminium, magnesium or titanium. There is also disclosed a plasma electrolytic oxidation process for generating dielectric oxide coatings of controlled crystallinity on a surface of a metallic workpiece, wherein at least a series of positive pulses of current are applied to the workpiece in an electrolyte so as to generate plasma discharges, wherein discharge currents are restricted to levels no more than 50 mA, discharge durations are restricted to durations of no more than 100 μs and are shorter than the durations of each the positive pulses, and/or by restricting the power of individual plasma discharges to under 15W. There is also disclosed an insulated metal substrate capable of withstanding exposure to high temperatures (over 300° C.) and thermal shock or repeated thermal cycling of over 300° C., as a result of excellent adhesion of the insulating dielectric to the metal substrate, and the mechanically compliant nature of the coating (E˜20-30 GPa). Furthermore, there is disclosed a method of making these insulated metal substrates so thin as to be mechanically flexible or pliable without detriment to their electrical insulation.

Classes IPC  ?

• C25D 11/02 - Anodisation
• C25D 11/04 - Anodisation de l'aluminium ou de ses alliages
• C25D 11/26 - Anodisation de métaux réfractaires ou de leurs alliages
• C25D 11/30 - Anodisation de magnésium ou de ses alliages
• C25D 21/12 - Commande ou régulation
• C30B 7/12 - Croissance des monocristaux à partir de solutions en utilisant des solvants liquides à la température ordinaire, p.ex. à partir de solutions aqueuses par électrolyse
• C30B 7/14 - Croissance des monocristaux à partir de solutions en utilisant des solvants liquides à la température ordinaire, p.ex. à partir de solutions aqueuses le matériau à cristalliser étant produit dans la solution par des réactions chimiques
• C30B 29/16 - Oxydes
• C30B 29/20 - Oxydes d'aluminium
• C30B 30/02 - Production de monocristaux ou de matériaux polycristallins homogènes de structure déterminée, caractérisée par l'action de champs électriques ou magnétiques, de l'énergie ondulatoire ou d'autres conditions physiques spécifiques en utilisant des champs électriques, p.ex. par électrolyse
• H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
• G01R 19/00 - Dispositions pour procéder aux mesures de courant ou de tension ou pour en indiquer l'existence ou le signe

Abrégé

The present invention relates to a photocatalyst and a method of manufacturing a photocatalyst. More specifically, the present invention relates to a high surface area TiO 2 photocatalyst formed by electrolytic discharge oxidation (EDO) of a substrate comprising titanium. A flexible high surface area photocatalyst architecture comprising a compliant, cohesive, well-adhered and highly porous surface layer of the anatase phase of titanium dioxide is provided. The highly porous surface layer of the anatase phase of titanium dioxide is formed in a single step by the electrolytic oxidation of a titanium surface on a permeable, flexible, and electrically conductive substrate sponge structure.

Classes IPC  ?

• B01J 37/00 - Procédés de préparation des catalyseurs, en général; Procédés d'activation des catalyseurs, en général
• B01J 21/06 - Silicium, titane, zirconium ou hafnium; Leurs oxydes ou hydroxydes
• B01J 35/00 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général
• B01J 37/34 - Irradiation ou application d'énergie électrique, magnétique ou ondulatoire, p.ex. d'ondes ultrasonores
• B01J 35/04 - Structures non pleines, p.ex. tamis, grilles, nids d'abeilles
• B01J 35/06 - Etoffes ou filaments
• C02F 1/72 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par oxydation
• B01J 37/02 - Imprégnation, revêtement ou précipitation
• C25D 11/02 - Anodisation
• C25D 11/26 - Anodisation de métaux réfractaires ou de leurs alliages
• H01M 8/16 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Éléments à combustible; Leur fabrication Éléments à combustible biochimique, c. à d. éléments dans lesquels des micro-organismes agissent comme catalyseurs
• B01J 35/10 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général solides caractérisés par leurs propriétés de surface ou leur porosité
• C02F 1/32 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par irradiation par la lumière ultraviolette
• C02F 3/00 - Traitement biologique de l'eau, des eaux résiduaires ou des eaux d'égout
• C02F 101/30 - Composés organiques

Abrégé

There is disclosed an insulated metal substrate, consisting of a dielectric oxide coatings of high crystallinity (>vol90%) on aluminium, magnesium or titanium and high thermal conductivity (over 6Wm-1 K-1), formed by plasma electrolytic oxidation on a surface comprising aluminium, magnesium or titanium. There is also disclosed a plasma electrolytic oxidation process for generating dielectric oxide coatings of controlled crystallinity on a surface of a metallic workpiece, wherein at least a series of positive pulses of current are applied to the workpiece in an electrolyte so as to generate plasma discharges, wherein discharge currents are restricted to levels no more than 50mA, discharge durations are restricted to durations of no more than 100µs and are shorter than the durations of each the positive pulses, and/or by restricting the power of individual plasma discharges to under 15W. There is also disclosed an insulated metal substrate capable of withstanding exposure to high temperatures (over 300°C) and thermal shock or repeated thermal cycling of over 300°C, as a result of excellent adhesion of the insulating dielectric to the metal substrate, and the mechanically compliant nature of the coating (E ~20-30GPa). Furthermore, there is disclosed a method of making these insulated metal substrates so thin as to be mechanically flexible or pliable without detriment to their electrical insulation.

Classes IPC  ?

• C25D 11/02 - Anodisation
• C25D 21/12 - Commande ou régulation
• G01R 31/02 - Essai des appareils, des lignes ou des composants électriques pour y déceler la présence de courts-circuits, de discontinuités, de fuites ou de connexions incorrectes de lignes
• G01R 31/12 - Test de la rigidité diélectrique ou de la tension disruptive
• H01H 9/50 - Moyens pour détecter la présence d'un arc ou d'une décharge

Abrégé

There is disclosed a method for producing corrosion and erosion-resistant mixed oxide coatings on a metal substrate, as well as a mixed oxide coating itself. A surface of the substrate metal is oxidized and converted into a first coating compound comprising a primary oxide of that metal by a plasma electrolytic oxidation (PEO) process. One or more secondary oxide compounds comprising oxides of secondary elements not present in conventional alloys of the substrate metals at significant (>2 wt %) levels are added to the first oxide coating. The source of the secondary element(s) is at least one of: i) a soluble salt of the secondary element(s) in the electrolyte; ii) an enrichment of the surface of the substrate metal with secondary element(s) prior to PEO processing; and iii) a suspension of the secondary element(s) or oxide(s) of the secondary element(s) applied to the oxide of the metal after this has been formed by the PEO process.

Classes IPC  ?

• C25D 11/02 - Anodisation
• C25D 11/04 - Anodisation de l'aluminium ou de ses alliages
• C25D 11/18 - Post-traitement, p.ex. bouchage des pores
• C25D 11/20 - Post-traitement électrolytique
• C25D 11/24 - Post-traitement chimique
• C25D 11/26 - Anodisation de métaux réfractaires ou de leurs alliages
• C25D 11/30 - Anodisation de magnésium ou de ses alliages
• C25D 11/06 - Anodisation de l'aluminium ou de ses alliages caractérisée par les électrolytes utilisés
• C25D 13/02 - Revêtement électrophorétique caractérisé par le procédé avec des matières inorganiques

Abrégé

The present invention relates to a photocatalyst and a method of manufacturing a photocatalyst. More specifically, the present invention relates to a high surface area TiO 2 photocatalyst formed by electrolytic discharge oxidation (EDO) of a substrate comprising titanium. A flexible high surface area photocatalyst architecture comprising a compliant, cohesive, well-adhered and highly porous surface layer of the anatase phase of titanium dioxideis provided. The highly porous surface layer of the anatase phase of titanium dioxideisformed in a single step by the electrolytic oxidation of a titanium surface on a permeable, flexible, and electrically conductive substrate sponge structure.

Classes IPC  ?

• B01J 21/06 - Silicium, titane, zirconium ou hafnium; Leurs oxydes ou hydroxydes
• B01J 35/00 - Catalyseurs caractérisés par leur forme ou leurs propriétés physiques, en général
• B01J 37/34 - Irradiation ou application d'énergie électrique, magnétique ou ondulatoire, p.ex. d'ondes ultrasonores
• B01J 35/04 - Structures non pleines, p.ex. tamis, grilles, nids d'abeilles
• B01J 35/06 - Etoffes ou filaments
• C02F 1/32 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par irradiation par la lumière ultraviolette
• C02F 1/72 - Traitement de l'eau, des eaux résiduaires ou des eaux d'égout par oxydation
• C02F 3/00 - Traitement biologique de l'eau, des eaux résiduaires ou des eaux d'égout

Abrégé

A process for the corrosion protection of metals such as magnesium, aluminium or titanium, where at least two steps are used, including both plasma electrolytic oxidation and chemical passivation. The combination of these two processing steps enhances the corrosion resistance performance of the surface beyond the capability of either of the steps in isolation, providing a more robust protection system. This process may be used as a corrosion protective coating in its own right, or as a protection-enhancing pre-treatment for top-coats such as powder coat or e-coat. When used without an additional top-coat, the treated parts can still retain electrical continuity with and adjoining metal parts. Advantages include reduced cost and higher productivity than traditional plasma-electrolytic oxidation systems, improved corrosion protection, greater coating robustness and electrical continuity.

Classes IPC  ?

• C23C 22/78 - Pré-traitement du matériau à revêtir
• C25D 11/24 - Post-traitement chimique
• C25D 11/30 - Anodisation de magnésium ou de ses alliages
• C25D 11/26 - Anodisation de métaux réfractaires ou de leurs alliages
• B05D 3/14 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliqués; Traitement ultérieur des revêtements appliqués, p.ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides par des moyens électriques
• C25D 11/16 - Prétraitement
• C23C 22/82 - Post-traitement
• C25D 11/02 - Anodisation

Abrégé

A process for the corrosion protection of metals such as magnesium, aluminium or titanium, where at least two steps are used, including both plasma electrolytic oxidation and chemical passivation. The combination of these two processing steps enhances the corrosion resistance performance of the surface beyond the capability of either of the steps in isolation, providing a more robust protection system. This process may be used as a corrosion protective coating in its own right, or as a protection-enhancing pre-treatment for top-coats such as powder coat or e-coat. When used without an additional top-coat, the treated parts can still retain electrical continuity with and adjoining metal parts. Advantages include reduced cost and higher productivity than traditional plasma-electrolytic oxidation systems, improved corrosion protection, greater coating robustness and electrical continuity.

Classes IPC  ?

• C23C 22/78 - Pré-traitement du matériau à revêtir
• C23C 22/82 - Post-traitement
• C25D 11/16 - Prétraitement
• C25D 11/24 - Post-traitement chimique
• C25D 11/26 - Anodisation de métaux réfractaires ou de leurs alliages
• C25D 11/30 - Anodisation de magnésium ou de ses alliages

Produits et services

Electrolyte solutions, other than for medical use, namely, for use in electrolytic baths for treating metals Electrolysers Metal treatment, namely, metal transformation and metal hardening

Abrégé

An electrical power substrate comprises a metallic body at least one surface of the body having a coating generated by plasma electrolytic oxidation (PEO). The coating includes a dense hard layer adjacent the said surface of the metallic body, and a porous outer layer. Electrically conductive elements are attached to the said coating.

Classes IPC  ?

• H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage

Produits et services

Circuit boards; printed circuit boards; insulated substrates for electronic circuits; flexible substrates for electronic circuits; flexible circuit boards; connectors for use with circuit boards; insulated circuit boards. Engineering, design and testing services relating to circuits; engineering, design and testing services relating to circuit boards; engineering, design and testing services relating to substrates for electronic circuits.

Produits et services

(1) Electrolyte solutions, other than for medical use; electrolysers. (2) Baths or tanks of metal; galvanising baths; galvanising tanks. (1) Metal transformation services; metal hardening services.

Produits et services

VARNISHES, LACQUERS IN THE NATURE OF A COATING, RUST PRESERVATIVES IN THE NATURE OF A COATING, WOOD PRESERVATIVES, COLORANTS FOR USE IN THE MANUFACTURE OF PAINT, MORDANTS FOR USE IN ANODISING ALUMINUM, RAW NATURAL RESINS FOR USE IN THE MANUFACTURE OF ADHESIVES, METALS IN FOIL AND POWDER FORM FOR PAINTERS, DECORATORS, PRINTERS AND ARTISTS

Produits et services

Electrolyte solutions, other than for medical use. Electrolysers. Metal transformation services; metal hardening services.