Development of zinc plating for nano and micro particles of higher hardness and wear resistance to improve welding processes, welding and welding processes (Q80167): Difference between revisions
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(Created claim: summary (P836): The project involves the development of a coating based on zinc and micro- nanoparticles.The coating will be characterised by increased persistence and resistance to external factors, but it will also allow for the first time the use of alternatives to galvanisation and the galvanising of ogonic methods in the process of securing metal coatings for the automotive industry.Our solution will be adapted to the requirements of the resistance welding...) |
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| Property / summary | |||
The project involves the development of a coating based on zinc and micro- nanoparticles.The coating will be characterised by increased persistence and resistance to external factors, but it will also allow for the first time the use of alternatives to galvanisation and the galvanising of ogonic methods in the process of securing metal coatings for the automotive industry.Our solution will be adapted to the requirements of the resistance welding technique of a precision steel sheet, commonly used for the production of bodywork.In addition, an improvement in the coating chairmanship will allow it to cover the techniques of catolforese or electrostatic painting techniques.The solution will be based on the results of the unique research carried out by consortium members with a subcontractor, the Institute of Industrial Chemistry.A key element of the project will be the development of a unique method for obtaining zinc particles of a certain size and structure.They will be a key component of the coating, with appropriate binding agents ensuring that the desired properties are maintained.Once the key elements have been verified, the formulation will be ready for the final product. the objective of the project will be achieved through the implementation of the 5 research tasks. (English) | |||
| Property / summary: The project involves the development of a coating based on zinc and micro- nanoparticles.The coating will be characterised by increased persistence and resistance to external factors, but it will also allow for the first time the use of alternatives to galvanisation and the galvanising of ogonic methods in the process of securing metal coatings for the automotive industry.Our solution will be adapted to the requirements of the resistance welding technique of a precision steel sheet, commonly used for the production of bodywork.In addition, an improvement in the coating chairmanship will allow it to cover the techniques of catolforese or electrostatic painting techniques.The solution will be based on the results of the unique research carried out by consortium members with a subcontractor, the Institute of Industrial Chemistry.A key element of the project will be the development of a unique method for obtaining zinc particles of a certain size and structure.They will be a key component of the coating, with appropriate binding agents ensuring that the desired properties are maintained.Once the key elements have been verified, the formulation will be ready for the final product. the objective of the project will be achieved through the implementation of the 5 research tasks. (English) / rank | |||
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Revision as of 09:04, 4 March 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of zinc plating for nano and micro particles of higher hardness and wear resistance to improve welding processes, welding and welding processes |
Project in Poland financed by DG Regio |
Statements
2,454,397.36 zloty
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3,425,781.86 zloty
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71.64 percent
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1 July 2017
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31 March 2020
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PAWEŁ SOSNOWSKI - PS GROUP
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52°4'28.9"N, 21°1'37.6"E
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50°7'35.4"N, 19°0'24.5"E
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Przedmiotem projektu jest opracowanie powłoki bazującej na mikro- i nanocząstkach cynku. Powłoka będzie cechowała się podwyższoną trwałością oraz odpornością na działanie czynników zewnętrznych, ale również pozwoli ona po raz pierwszy na zastosowanie alternatywnych wobec galwanizacji i cynkowania ogniowego metod w procesie zabezpieczania powłok metalowych na potrzeby przemysłu motoryzacyjnego. Nasze rozwiązanie będzie dostosowane do wymagań techniki zgrzewania rezystancyjnego punktowego blach stalowych, powszechnie stosowanej w produkcji karoserii. Dodatkowo poprawa przewodnictwa powłoki umożliwi jej pokrywanie technikami malowania kataforetycznego lub elektrostatycznego. Rozwiązanie będzie oparte o wyniki unikalnych prac badawczych realizowanych przez członków konsorcjum z podwykonawcą, Instytutem Chemii Przemysłowej. Kluczowym elementem projektu będzie opracowanie unikalnej metody otrzymywania cząstek cynku o określonej wielkości oraz strukturze. Będą one stanowiły kluczowy składnik powłoki - do niego dobrane zostaną odpowiednie czynniki wiążące, zapewniające utrzymanie pożądanych właściwości. Po zweryfikowaniu kluczowych składników przygotowana zostanie receptura gotowego produktu Cel projektu zostanie osiągnięty poprzez realizację 5 zadań badawczych. (Polish)
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The project involves the development of a coating based on zinc and micro- nanoparticles.The coating will be characterised by increased persistence and resistance to external factors, but it will also allow for the first time the use of alternatives to galvanisation and the galvanising of ogonic methods in the process of securing metal coatings for the automotive industry.Our solution will be adapted to the requirements of the resistance welding technique of a precision steel sheet, commonly used for the production of bodywork.In addition, an improvement in the coating chairmanship will allow it to cover the techniques of catolforese or electrostatic painting techniques.The solution will be based on the results of the unique research carried out by consortium members with a subcontractor, the Institute of Industrial Chemistry.A key element of the project will be the development of a unique method for obtaining zinc particles of a certain size and structure.They will be a key component of the coating, with appropriate binding agents ensuring that the desired properties are maintained.Once the key elements have been verified, the formulation will be ready for the final product. the objective of the project will be achieved through the implementation of the 5 research tasks. (English)
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Identifiers
POIR.01.02.00-00-0243/16
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