Claims
- 1. A time-temperature integrator fusing device comprising: a composite article of a soft metal selected from the group consisting of gold, copper, silver and palladium with a predetermined cross section geometry and predetermined length; a predetermined amount of a material deposited onto at least a portion of said article which material will diffuse into said article thereby causing a controlled embrittling of said article, the embrittlement being a function of diffusion time and diffusion temperature; and having at least one stress point contained within said predetermined length.
- 2. The time-temperature integrator fusing device according to claim 1 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse into said article and cause said controlled embrittlement of said article and wherein said predetermined cross section is circular and said stress point is a controlled bend substantially about the midpoint of said predetermined length.
- 3. A time-temperature integrator fusing device comprising: a composite article of an alloy of a soft metal which soft metal is selected from the group consisting of gold, copper, silver and palladium with a predetermined cross section geometry and length and a predetermined resistivity; a predetermined amount of a material deposited on said alloy article which material will diffuse into said alloy article thereby causing a controlled embrittling of said alloy article, the embrittlement being a function of diffusion time and diffusion temperature; and having at least one stress point contained within said predetermined length.
- 4. The time-temperature integrator fusing device according to claim 3 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse into said article and cause said controlled embrittlement of said article and wherein said predetermined cross section is circular and said stress point is a controlled bend substantially about the midpoint of said predetermined length.
- 5. A time-temperature integrator fusing device comprising: a composite article of a soft metal selected from the group consisting of gold, copper, silver and palladium with a predetermined cross section geometry and predetermined length; a predetermined amount of a material contained within at least a portion of said article which material will diffuse outwardly into said article thereby causing a controlled embrittling of said article, the embrittlement being a function of diffusion time and diffusion temperature; and having at least one stress point contained within said predetermined length.
- 6. The time-temperature integrator fusing device according to claim 5 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse outwardly into said article and cause said controlled embrittlement of said article and wherein said predetermined cross section is circular and said stress point is a controlled bend substantially about the midpoint of said predetermined length.
- 7. A time-temperature integrator fusing device comprising: a composite article of an alloy of a soft metal which soft metal is selected from the group consisting of gold, copper, silver and palladium with a predetermined cross section geometry and length and a predetermined resistivity; a predetermined amount of a material contained within at least a portion of said alloy article which material will diffuse outwardly said alloy article thereby causing a controlled embrittling of said alloy article, the embrittlement being a function of diffusion time and diffusion temperature; and having at least one stress point contained within said predetermined length.
- 8. The time-temperature integrator fusing device according to claim 7 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse outwardly into said article and cause said controlled embrittlement of said alloy article and wherein said predetermined cross section is circular and said stress point is a controlled bend substantially about the midpoint of said predetermined length.
- 9. A method of fusing electrical and electronic systems causing said systems to become inoperable in function of time and temperature said method of fusing comprising: treating a composite article of a soft metal selected from the group consisting of gold, copper, silver and palladium by depositing thereon a predetermined amount of a material which will diffuse into said article forming an intermetallic with, and thereby causing a controlled embrittling of said article, the embrittlement being a function of diffusion time and diffusion temperature; cutting said treated composite article into a length, said length appropiate for interconnecting between two regions of said system; attaching, using low resistivity electrical attaching means, said cut composite article between said two regions; and creating at least one stress point within the length of said attached composite article whereby upon exposure to temperature and with the passing of time said attached composite article will increase in resistivity and will physically break at said at least one stress point, said system thus becoming inoperable.
- 10. The method of fusing according to claim 9 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse into said article and cause said controlled embrittlement of said article.
- 11. The method of fusing according to claim 10 wherein said article is a gold wire.
- 12. The method of fusing according to claim 10 wherein said article is a gold ribbon.
- 13. A method of fusing electrical and electronic systems causing said systems to become inoperable in function of time and temperature by said method of fusing comprising: treating a composite article of an alloy of a soft metal which soft metal is selected from the group consisting of gold, copper, silver and palladium with a predetermined cross section geometry and length and a predetermined resitivity; by depositing thereon a predetermined amount of a material deposited on said alloy article which material will diffuse into said alloy article forming an intermetallic with, and thereby causing a controlled embrittling of said alloy article, the embrittlement being a function of diffusion time and diffusion temperature; cutting said treated composite alloy article into a length, said length appropriate for interconnecting between two regions of said system; attaching, using low resistivity electrical attaching means, said cut composite alloy article between said two regions; and creating at least one stress point within the length of said attached composite alloy article whereby upon exposure to temperature and with the passing of time said attached composite alloy article will increase in resistivity and will physically break at said at least one stress point, said system thus becoming inoperable.
- 14. The method of fusing according to claim 13 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse into said alloy article and cause said controlled embrittlement of said composite alloy article.
- 15. The method of fusing according to claim 14 wherein said alloy article is a gold alloy wire.
- 16. The method of fusing according to claim 14 wherein said alloy article is a gold alloy ribbon.
- 17. A method of fusing electrical and electronic systems causing said systems to become inoperable in function of time and temperature said method of fusing comprising: plating a soft metal selected from the group consisting of gold, copper, silver and palladium onto a composite article of a material with a predetermined cross section geometry and length and a predetermined resistivity and which material will diffuse outwardly into said plated soft metal forming an intermetallic with, and thereby causing a controlled embrittling of said plated soft metal, the embrittlement being a function of diffusion time and diffusion temperature; cutting said plated article into a length, said length appropriate for interconnecting between two regions of said system; attaching, using low resistivity electrical attaching means, said cut plated article between said two regions; and creating at least one stress point within the length of said plated attached article whereby upon exposure to temperature and with the passing of time said plated attached article will increase in resistivity and will physically break at said at least one stress point, said system thus becoming inoperable.
- 18. The method of fusing according to claim 17 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse into said plated soft metal and cause said controlled embrittlement of said plated soft metal.
- 19. The method of fusing according to claim 18 wherein said article of material is a wire.
- 20. The method of fusing according to claim 18 wherein said article of material is a ribbon.
- 21. A method of fusing electrical and electronic systems causing said systems to become inoperable in function of time and temperature said method of fusing comprising: plating an alloy of a soft metal which soft metal is selected from the group consisting of gold, copper, silver and palladium onto a composite article of a material with a predetermined cross section geometry and length and a predetermined resistivity and which material will diffuse outwardly into said plated alloy of soft metal forming an intermetallic with, and thereby causing a controlled embrittling of said plated alloy of soft metal, the embrittlement being a function of diffusion time and diffusion temperature; cutting said plated article into a length, said length appropiate for interconnecting between two regions of said system; attaching, using low resistivity electrical attaching means, said cut plated article between said two regions; and creating at least one stress point within the length of said plated attached article whereby upon exposure to temperature and with the passing of time said plated attached article will increase in resistivity and will physically break at said at least one stress point, said system thus becoming inoperable.
- 22. The method of fusing according to claim 21 wherein said material comprises at least one metal selected from the group consisting of lead, indium, mercury, gallium, tin, bismuth, and alloys containing these metals which material will diffuse into said plated soft metal and cause said controlled embrittlement of said plated alloy of soft metal.
- 23. The method of fusing according to claim 22 wherein said article of material is a wire.
- 24. The method of fusing according to claim 22 wherein said article of material is a ribbon.
Parent Case Info
This application is a division, of application Ser. No. 349,538, filed on May 9, 1989.
US Referenced Citations (5)
Divisions (1)
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Number |
Date |
Country |
Parent |
349538 |
May 1989 |
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