Q3676470 (Q3676470): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: importing one item from France) |
(Created claim: summary (P836): The automotive market, for the molding of polyurethane foam seats, uses release agents rich in organic solvents, which have a health and ecological impact (ozone precursor). For environmental and economic reasons, demand for innovative water-based technologies, such as paints, is growing. However, these are not ripe to date: the products are greasy, harmful to the bonding of the fabric and the surface appearance of the parts, degrading, in fine,...) |
||||||||||||||
Property / summary | |||||||||||||||
The automotive market, for the molding of polyurethane foam seats, uses release agents rich in organic solvents, which have a health and ecological impact (ozone precursor). For environmental and economic reasons, demand for innovative water-based technologies, such as paints, is growing. However, these are not ripe to date: the products are greasy, harmful to the bonding of the fabric and the surface appearance of the parts, degrading, in fine, their mechanical properties and their service life. OCO, a leading player on the market, has developed a unique know-how in aqueous base wax emulsions, in collaboration with FAURECIA, TOYOTA, JOHNSON CONTROLS leaders, and now has promising solutions at the experimental development stage. The project will develop a full range, invest in the pilot equipment needed for validation and testing at end-users, and prepare for industrialisation and commercialisation through market research. (English) | |||||||||||||||
Property / summary: The automotive market, for the molding of polyurethane foam seats, uses release agents rich in organic solvents, which have a health and ecological impact (ozone precursor). For environmental and economic reasons, demand for innovative water-based technologies, such as paints, is growing. However, these are not ripe to date: the products are greasy, harmful to the bonding of the fabric and the surface appearance of the parts, degrading, in fine, their mechanical properties and their service life. OCO, a leading player on the market, has developed a unique know-how in aqueous base wax emulsions, in collaboration with FAURECIA, TOYOTA, JOHNSON CONTROLS leaders, and now has promising solutions at the experimental development stage. The project will develop a full range, invest in the pilot equipment needed for validation and testing at end-users, and prepare for industrialisation and commercialisation through market research. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: The automotive market, for the molding of polyurethane foam seats, uses release agents rich in organic solvents, which have a health and ecological impact (ozone precursor). For environmental and economic reasons, demand for innovative water-based technologies, such as paints, is growing. However, these are not ripe to date: the products are greasy, harmful to the bonding of the fabric and the surface appearance of the parts, degrading, in fine, their mechanical properties and their service life. OCO, a leading player on the market, has developed a unique know-how in aqueous base wax emulsions, in collaboration with FAURECIA, TOYOTA, JOHNSON CONTROLS leaders, and now has promising solutions at the experimental development stage. The project will develop a full range, invest in the pilot equipment needed for validation and testing at end-users, and prepare for industrialisation and commercialisation through market research. (English) / qualifier | |||||||||||||||
point in time: 18 November 2021
|
Revision as of 16:29, 18 November 2021
Project Q3676470 in France
Language | Label | Description | Also known as |
---|---|---|---|
English | No label defined |
Project Q3676470 in France |
Statements
306,460.0 Euro
0 references
875,600.0 Euro
0 references
35.0 percent
0 references
15 April 2016
0 references
14 April 2019
0 references
ORRION CHEMICALS ORGAFORM
0 references
Le marché automobile, pour le moulage des sièges en mousse polyuréthane, utilise des agents démoulants riches en solvants organiques, qui ont un impact sanitaire et écologique (précurseur d'ozone). Pour des raisons environnementales et économiques, la demande croît pour des technologies innovantes à base aqueuse, comme pour les peintures. Celles-ci ne sont toutefois pas mûres à ce jour : les produits sont gras, nuisent au collage du tissu et à l'aspect de surface des pièces, dégradant, in fine, leurs propriétés mécaniques et leur durée de vie. OCO, acteur de référence sur le marché, a développé un savoir-faire unique dans les émulsions de cire en base aqueuse, en collaboration avec les leaders FAURECIA, TOYOTA, JOHNSON CONTROLS, et dispose aujourd'hui de solutions prometteuses au stade du développement expérimental. Le projet permettra de développer une gamme complète, d'investir dans les équipements pilotes nécessaires pour la validation et les essais chez les utilisateurs finaux, et de préparer l'industrialisation et la commercialisation par une étude de marché. (French)
0 references
The automotive market, for the molding of polyurethane foam seats, uses release agents rich in organic solvents, which have a health and ecological impact (ozone precursor). For environmental and economic reasons, demand for innovative water-based technologies, such as paints, is growing. However, these are not ripe to date: the products are greasy, harmful to the bonding of the fabric and the surface appearance of the parts, degrading, in fine, their mechanical properties and their service life. OCO, a leading player on the market, has developed a unique know-how in aqueous base wax emulsions, in collaboration with FAURECIA, TOYOTA, JOHNSON CONTROLS leaders, and now has promising solutions at the experimental development stage. The project will develop a full range, invest in the pilot equipment needed for validation and testing at end-users, and prepare for industrialisation and commercialisation through market research. (English)
18 November 2021
0 references
Identifiers
CT0006331
0 references