High sparking initiator compositions with a controlled amount of power are disclosed. The initiator compositions comprise a metal containing oxidizing agent, at least one metal reducing agent, and a non-explosive binder. Low voltage igniters that provide bidirectional plumes upon ignition are also d
High sparking initiator compositions with a controlled amount of power are disclosed. The initiator compositions comprise a metal containing oxidizing agent, at least one metal reducing agent, and a non-explosive binder. Low voltage igniters that provide bidirectional plumes upon ignition are also disclosed. These igniters have a electrically resistive element positioned across a hole in a support which directs the plume. These igniters and compositions are useful in the actuation of solid fuel heating unit, in particular, sealed heating units.
대표청구항▼
What is claimed is: 1. An initiator composition comprising a mixture including a. a metal containing oxidizing agent b. a metal reducing agent, and c. a non-explosive binder, wherein said mixture is characterized by release of a total amount of energy of 0.25 J to 8.5 J upon actuation and a deflagr
What is claimed is: 1. An initiator composition comprising a mixture including a. a metal containing oxidizing agent b. a metal reducing agent, and c. a non-explosive binder, wherein said mixture is characterized by release of a total amount of energy of 0.25 J to 8.5 J upon actuation and a deflagration time of 5 to 30 milliseconds at a composition thickness of 20 to 100 microns. 2. The initiator composition of claim 1, wherein said mixture is characterized by a deflagration time of 5 to 20 milliseconds at a composition thickness of 40 to 100 microns. 3. The initiator composition of claim 1, wherein said mixture is characterized by a deflagration time of 5 to 10 milliseconds at a composition thickness of 40 to 80 microns. 4. The initiator composition of claim 1, wherein said metal reducing agent is selected from the group consisting of aluminum, zirconium and boron. 5. The initiator composition of claim 1, wherein said metal containing oxidizing agent is selected from at least one of the following: a chlorate of an alkali, a chlorate of an alkali earth metal, a perchlorate of an alkali metal, a perchlorate of an alkali earth metal, and an oxide of a metal. 6. The initiator composition of claim 5, wherein the said metal containing oxidizing agent is selected from at least one of the following: molybdenum trioxide, copper oxide, tungsten trioxide, potassium chlorate, and potassium perchlorate. 7. The initiator composition of claim 1, wherein the composition comprises at least two metal reducing agents. 8. The initiator composition of claim 7, wherein at least one of the at least two metal reducing agents is boron. 9. The initiator composition of claim 8, wherein said composition comprises about 7-10% by weight of boron, based on total composition dry weight. 10. The initiator composition of claim 1, wherein both the metal reducing agent and the metal-containing oxidizing agent comprise powders. 11. The initiator composition of claim 10, wherein at least one of the metal reducing agent and the metal-containing agent comprise a powder of nanoparticle size. 12. The initiator composition of claim 10, wherein both the metal reducing agent and the metal-containing oxidizing agent comprise powders of nanoparticle size. 13. The initiator composition of claim 1, wherein said composition comprises about 25-75% by weight of said oxidizing agent, based on total composition dry weight. 14. The initiator composition of claim 1, wherein said composition comprises about 25-75% by weight of said reducing agent, based on total composition dry weight. 15. The initiator composition of claim 1, wherein said composition comprises less than about 15% by weight of said binder, based on total composition dry weight. 16. The initiator composition of claim 1, wherein said composition comprises less than about 5% by weight of said binder, based on total composition dry weight. 17. The initiator composition of claim 15, wherein the binder is inert. 18. The initiator composition of claim 17, wherein the binder is selected from the group consisting of fluoro-carbon rubber and synthetic layered silicate. 19. The initiator composition of claim 1, wherein said initiator composition is for use with electrical resistance actuation. 20. The initiator composition of claim 1, wherein said initiator composition is for use with percussion actuation. 21. The initiator composition of claim 1, wherein said initiator composition is for use with optical actuation. 22. The initiator composition of claim 21, wherein said optical actuation is provided by a flashbulb. 23. The initiator composition of claim 1, wherein the metal containing oxidizing agent comprises molybdenum trioxide, the metal reducing agent comprises aluminum and boron, and the non-explosive binder comprises fluoro-carbon rubber. 24. An initiator composition comprising about 26-27% by weight of aluminum, about 51-52% by weight of molybdemun trioxide, about 7-8% by weight of boron, and about 14-15% by weight of fluoro-carbon rubber, based on total composition dry weight.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (149)
Ridings Henry T. (Lewisville NC) Banerjee Chandra K. (Pfafftown NC), Aerosol delivery article.
Cox, Kenneth A.; Beane, Timothy Paul; Sweeney, William R.; Nichols, Walter A.; Sprinkel, Jr., F. Murphy, Aerosol generator and methods of making and using an aerosol generator.
Jonathan A. Eppstein ; Michael R. Hatch ; Joseph Papp ; Mark L. Faupel ; Krishna Kumar, Controlled removal of biological membrane by pyrotechnic charge for transmembrane transport.
Hodges, Craig C.; Lloyd, Peter M.; Mufson, Daniel; Rogers, Daniel D.; Wensley, Martin J., Delivery of aerosols containing small particles through an inhalation route.
Hale, Ron L.; Rabinowitz, Joshua D.; Solas, Dennis W.; Zaffaroni, Alejandro C., Delivery of sumatriptan, frovatriptan or naratriptan through an inhalation route.
Hale,Ron L.; Rabinowitz,Joshua D.; Solas,Dennis W.; Zaffaroni,Alejandro C., Delivery of sumatriptan, frovatriptan or naratriptan through an inhalation route.
Hale,Ron L.; Rabinowitz,Joshua D.; Solas,Dennis W.; Zaffaroni,Alejandro C., Delivery of sumatriptan, frovatriptan or naratriptan through an inhalation route.
Potter Dennis L. (Kernersville NC) Raker Mark L. (Clemmons NC) Ridings Henry T. (Lewisville NC) Sensabaugh ; Jr. Andrew J. (Winston-Salem NC) Westmoreland Amos E. (Winston-Salem NC) Woods Donna K. (W, Drug delivery article.
Brooks Johnny L. (Winston-Salem NC) Roberts Donald L. (Winston-Salem NC) Simmons Jerry S. (Rural Hall NC), Drug delivery articles utilizing electrical energy.
Farrier Ernest G. (Winston-Salem NC) Chiou Joseph J. (Clemmons NC) Lehman Richard L. (Franklin Park NJ) Banerjee Chandra K. (Pfafftown NC), Electrochemical heat source.
Farrier Ernest G. (Winston-Salem NC) Chiou Joseph J. (Clemmons NC) Lehman Richard L. (Franklin Park NJ) Banerjee Chandra K. (Pfafftown NC) Ridings Henry T. (Lewisville NC) Sensabaugh ; Jr. Andrew J. , Electrochemical heat source.
Bouchard ; Andre C. ; Hall ; Jr. ; Harold H. ; Patton ; Robert J. ; Sent ementes ; Thomas J., Flashlamp assembly for providing highly intense audible and visual signals.
Brooks Johnny L. (Winston-Salem NC) Roberts Donald L. (Winston-Salem NC) Simmons Jerry S. (Rural Hall NC), Flavor delivery articles utilizing electrical energy.
Cannavo′ Christian G. (Bourges FRX) Espagnacq Andre′ (Bourges FRX) Riffault Marie L. (Sancerre FRX), Hot-wire ignition initiator for propellant charges.
Lauritzen Donald R. (Hyrum UT) Green David J. (Brigham City UT) Ralston Joseph L. (No. Ogden UT), Inflator for a vehicle airbag system and a pyrogen igniter used therein.
Lauritzen Donald R. (Hyrum UT) Green David J. (Brigham City UT) Taylor Robert D. (Hyrum UT) Mitson Scott C. (Honeyville UT), Linear igniters for airbag inflators.
Rubsamen Reid M. (Berkeley CA) Lloyd Lester J. (Orinda CA) Johansson Eric T. (Dublin CA), Lockout device for controlled release of drug from patient-activated dispenser.
Rubsamen Reid M. (Berkeley CA) Lloyd Lester J. (Orinda CA) Johansson Eric T. (Dublin CA), Lockout device for controlled release of drug from patient-activateddispenser.
Dalton Rick D. (Miamisburg OH) Kramer Daniel P. (Centerville OH) Massey Richard T. (Hamilton OH) Waker Damon A. (Bellbrook OH), Method of making an integral window hermetic fiber optic component.
Thureson Gary R. (Avon CT) Gladden Ernest L. (Granby CT), Nonelectric blasting initiation signal control system, method and transmission device therefor.
Frosch Robert A. Administrator of the National Aeronautics and Space Administration ; with respect to an invention of ( La Canada CA) Yang Lien C. (La Canada CA), Portable heatable container.
Hamilton Brian K. (Littleton CO) Haynes Kenneth E. (Parker CO) Kirk Doug R. (Parker CO) Blomberg William J. (Parker CO), Slurry-loadable electrical initiator.
Brooks Johnny L. (Winston-Salem NC) Roberts Donald L. (Winston-Salem NC) Simmons Jerry S. (Rural Hall NC), Smoking articles utilizing electrical energy.
Das,Nripendra Nath; Heidorn,Raymond William; Gmerek, Jr.,Walter Michael; Jablonka,David Andrew, System for applying a diffusion aluminide coating on a selective area of a turbine engine component.
Holland Gary F. (Snohomish WA) Poole Donald R. (South Colby WA) Wolf Nicholas A. (Renton WA) Wilson Michael A. (Bothell WA), Thermally stable gas generating composition.
Banerjee Chandra K. (Pfafftown NC) Chiou Joseph J. (Clemmons NC) Farrier Ernest G. (Winston-Salem NC) Gentry Thomas L. (Winston-Salem NC) Lehman Richard L. (Belle Mead NJ) Ridings Henry T. (Lewisvill, Tobacco smoking article with electrochemical heat source.
Hale, Ron L.; Lei, Mingzu; Lloyd, Peter M.; Munzar, Patrik; Sharma, Krishnamohan; Solas, Dennis W.; Stracker, Matthew D., Aerosol drug delivery device incorporating percussively activated heat packages.
Hale, Ron L.; Hodges, Craig C.; Lloyd, Peter M.; Lu, Amy T.; Myers, Daniel J.; Rabinowitz, Joshua D.; Wensley, Martin J.; McKinney, Jeffrey A.; Zaffaroni, Alejandro C., Drug condensation aerosols and kits.
Hale, Ron L.; Hodges, Craig C.; Lloyd, Peter M.; Lu, Amy T.; Myers, Daniel J.; Rabinowitz, Joshua D.; Wensley, Martin J.; McKinney, Jeffrey A.; Zaffaroni, Alejandro C., Drug condensation aerosols and kits.
Hale, Ron L.; Hodges, Craig C.; Lloyd, Peter M.; Lu, Amy T.; Myers, Daniel J.; Rabinowitz, Joshua D.; Wensley, Martin J.; McKinney, Jeffrey A.; Zaffaroni, Alejandro C., Drug condensation aerosols and kits.
Hale, Ron L.; Hodges, Craig C.; Lloyd, Peter M.; Mufson, Daniel; Rogers, Daniel D.; Song, Soonho; Wensley, Martin J.; Myers, Daniel J.; McKinney, Jeffrey A.; Quintana, Reynaldo J.; Rabinowitz, Joshua D., Method of forming an aerosol for inhalation delivery.
Hale, Ron L.; Hodges, Craig C.; Lloyd, Peter M.; Mufson, Daniel; Rogers, Daniel D.; Song, Soonho; Wensley, Martin J.; Myers, Daniel J.; McKinney, Jeffrey A.; Quintana, Reynaldo J.; Rabinowitz, Joshua D., Method of forming an aerosol for inhalation delivery.
Hale, Ron L.; Hodges, Craig C.; Lloyd, Peter M.; Mufson, Daniel; Rogers, Daniel D.; Song, Soonho; Wensley, Martin J.; Myers, Daniel J.; McKinney, Jeffrey A.; Quintana, Reynaldo J.; Rabinowitz, Joshua D., Method of forming an aerosol for inhalation delivery.
Cross, Stephen D.; Herbette, Mathieu; Kelly, Andrew J. G.; Myers, Daniel J.; Shen, William W.; Timmons, Ryan D.; Tom, Curtis; Virgili, Justin M.; Wensley, Martin J., Multiple dose condensation aerosol devices and methods of forming condensation aerosols.
Cross, Steven D.; Herbette, Mathieu; Kelly, Andrew J. G.; Myers, Daniel J.; Shen, William W.; Timmons, Ryan D.; Tom, Curtis; Virgili, Justin M.; Wensley, Martin J., Multiple dose condensation aerosol devices and methods of forming condensation aerosols.
Hale, Ron L.; Lloyd, Peter M.; Lu, Amy; Myers, Daniel J.; Quintana, Reynaldo J.; Rabinowitz, Joshua D.; Solas, Dennis W.; Song, Soonho; Tom, Curtis; Wensley, Martin J., Rapid-heating drug delivery article and method of use.
Hale, Ron L.; Lloyd, Peter M.; Lu, Amy T.; Rabinowitz, Joshua D.; Wensley, Martin J., Respiratory drug condensation aerosols and methods of making and using them.
Hale, Ron L.; Lloyd, Peter M.; Lu, Amy T.; Rabinowitz, Joshua D.; Wensley, Martin J., Respiratory drug condensation aerosols and methods of making and using them.
Damani, Ramesh; Hale, Ron L.; Myers, Daniel J.; Quintana, Reynaldo J.; Solas, Dennis W.; Song, Soonho; Soni, Pravin; Tom, Curtis; Sharma, Kirshnamohan, Self-contained heating unit and drug-supply unit employing same.
Damani, Ramesh; Hale, Ron L.; Myers, Daniel J.; Quintana, Reynaldo J.; Solas, Dennis W.; Song, Soonho; Soni, Pravin; Tom, Curtis; Sharma, Krishnamohan, Self-contained heating unit and drug-supply unit employing same.
Damani, Ramesh; Hale, Ron L.; Myers, Daniel J.; Quintana, Reynaldo J.; Solas, Dennis W.; Song, Soonho; Soni, Pravin; Tom, Curtis; Sharma, Krishnamohan, Self-contained heating unit and drug-supply unit employing same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.