IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0837480
(2001-04-19)
|
우선권정보 |
JP-2000-117734(2000-04-19) |
발명자
/ 주소 |
- Nakata,Hiromichi
- Yokoi,Masayoshi
- Yoshimura,Joji
- Suzuki,Kenichi
- Nonoyama,Fumio
|
출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
9 |
초록
▼
A separator is provided with a substrate portion having a predetermined concave-convex shape, an underlying coating layer formed on the substrate portion, a first coating layer coating the substrate portion and the underlying coating layer, and a second coating layer formed thereon. The second coati
A separator is provided with a substrate portion having a predetermined concave-convex shape, an underlying coating layer formed on the substrate portion, a first coating layer coating the substrate portion and the underlying coating layer, and a second coating layer formed thereon. The second coating layer, which is formed from carbon materials, is sufficiently electrically conductive and protects the underlying layers. The first coating layer is formed from a low-melting-point metal subjected to a melting process. The melting process is a process of first conducting heating at such a temperature that melts the low-melting-point metal but does not melt the substrate portion and the underlying coating layer and then conducting cooling. Thus, in the first coating layer, the crystal grain size of the metal is increased and thus the grain boundary density is reduced.
대표청구항
▼
What is claimed is: 1. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material having a surface; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separato
What is claimed is: 1. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material having a surface; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator associated with electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein the metal coating layer comprises crystal grains having an average grain size of 0.1 mm or more, resulting from melting and gradual cooling of the coating layer on the separator base material, and wherein the metal coating layer formed from the metal contains a substance added to the metal which reduces a melting point of the metal when added to the metal. 2. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material having a surface; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator associated with electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein the metal coating layer comprises crystal grains having an average grain size of 0.1 mm or more, resulting from melting and gradual cooling of the coating layer on the separator base material, and wherein the metal is tin or a tin alloy. 3. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material having a surface; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator associated with electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein the metal coating layer comprises crystal grains having an average grain size of 0.1 mm or more, resulting from melting and gradual cooling of the coating layer on the separator base material, and wherein the metal is a tin alloy having a lower melting point than that of tin. 4. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material having a surface; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator associated with electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein the metal coating layer comprises crystal grains having an average grain size of 0.1 mm or more, resulting from melting and gradual cooling of the coating aver on the separator base material, and wherein the metal coating layer has a corrosion-resistant coating layer formed on the surface of the metal coating layer, the corrosion-resistant coating layer being formed from a corrosion resistant, electrically conductive substance. 5. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material having a surface; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator associated with electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein the metal coating layer comprises crystal grains having an average grain size of 0.1 mm or more, resulting from melting and gradual cooling of the coating layer on the separator base material, and further comprising a carbon coating layer of a carbon material formed at least on the region of the separator base material where the metal coating layer is formed. 6. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator base material associated with an electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein crystal grains of the metal forming the metal coating layer have an average grain size of 0.1 mm or more, and wherein the metal coating layer formed from the metal contains a substance added to the metal which reduces a melting point of the metal when added to the metal. 7. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator base material associated with an electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein crystal grains of the metal forming the metal coating layer have an average grain size of 0.1 mm or more, and wherein the metal is tin or a tin alloy. 8. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator base material associated with an electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein crystal grains of the metal forming the metal coating layer have an average grain size of 0.1 mm or more, and wherein the metal is a tin alloy having a lower melting point than that of tin. 9. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator base material associated with an electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein crystal grains of the metal forming the metal coating layer have an average grain size of 0.1 mm or more, and wherein the metal coating layer has a corrosion-resistant coating layer formed on the surface of the metal coating layer, the corrosion-resistant coating layer being formed from a corrosion resistant, electrically conductive substance. 10. A fuel cell separator integrated into a fuel cell and forming a fluid flow path, comprising: a separator base material; and a metal coating layer formed from a metal and formed at least on the surface of the separator base material in a region of the separator base material associated with an electrical contact resistance between the separator and an adjacent member of the fuel cell when the separator is brought into contact with the adjacent member when the separator is integrated into the fuel cell, wherein crystal grains of the metal forming the metal coating layer have an average grain size of 0.1 mm or more, and further comprising a carbon coating layer of a carbon material formed at least on the region of the separator base material where the metal coating layer is formed.
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