Disclosed herein are embodiments of simulated explosive materials and Threat Screening Kits and simulated IED Circuit Kits including simulated explosive materials. The simulated explosive materials are configured to produce an output signal consistent with the presence of an actual explosive materia
Disclosed herein are embodiments of simulated explosive materials and Threat Screening Kits and simulated IED Circuit Kits including simulated explosive materials. The simulated explosive materials are configured to produce an output signal consistent with the presence of an actual explosive material when scanned in an X-ray scanner.
대표청구항▼
1. A simulated explosive material consisting essentially of three or more inert components and having a density substantially similar to an explosive material, the density of the simulated explosive material being within a range of from about 0.8 grams per cubic centimeter (g/cm3) to about 4.7 g/cm3
1. A simulated explosive material consisting essentially of three or more inert components and having a density substantially similar to an explosive material, the density of the simulated explosive material being within a range of from about 0.8 grams per cubic centimeter (g/cm3) to about 4.7 g/cm3, the simulated explosive material configured to produce an output signal consistent with the presence of the explosive material when scanned in an X-ray scanner, the three or more inert components including one or more of sugar, baking soda, corn starch, or calcium chloride. 2. The simulated explosive material of claim 1, wherein the three or more inert components include a mixture of brown sugar and one or more of corn syrup, baking soda, water, or vegetable oil. 3. The simulated explosive material of claim 2, having a density of between about 1.0 g/cm3 and about 1.5 g/cm3 and configured to produce an output signal consistent with the presence of dynamite when scanned in an X-ray scanner. 4. The simulated explosive material of claim 1, wherein the three or more inert components include a confectioner sugar and one or more of corn starch or corn syrup. 5. The simulated explosive material of claim 4, having a density of between about 1.4 g/cm3 and about 1.5 g/cm3 and configured to produce an output signal consistent with the presence of one of dynamite or PE-4 when scanned in an X-ray scanner. 6. The simulated explosive material of claim 1, wherein the three or more inert components include baking soda and one or more of corn syrup, corn starch, water, oil, or paraffin wax. 7. The simulated explosive material of claim 6, having a density of between about 1.2 g/cm and about 1.5 g/cm3 and configured to produce an output signal consistent with the presence of one of TNT or a plastic explosive when scanned in an X-ray scanner. 8. The simulated explosive material of claim 1, wherein the three or more inert components include paraffin wax, corn starch, water, and oil. 9. The simulated explosive material of claim 8, configured to produce an output signal consistent with the presence of one of PE-4, TNT, or nitroglycerine when scanned in an X-ray scanner. 10. The simulated explosive material of claim 1, including a mixture of 900 parts dark brown sugar, 100 parts corn syrup, and 150 parts baking soda. 11. The simulated explosive material of claim 1, including a mixture of water, charcoal, sodium chloride, and calcium chloride in a ratio of 200 ml of water to 200 g of charcoal to 65 g of sodium chloride to 35 g of calcium chloride. 12. The simulated explosive material of claim 1, including a mixture of 200 parts glycerin, 200 parts corn starch, 80 parts hydrogen peroxide, and one of 120 parts alumina, 130 parts alumina, 140 parts alumina, or 190 parts alumina. 13. The simulated explosive material of claim 1, including a mixture of baking soda, water, vegetable oil, and paraffin wax in a ratio of 1340 g baking soda to 15 g water to 218 g vegetable oil to 907 g paraffin wax. 14. The simulated explosive material of claim 1, including a mixture of baking soda, corn starch, water, and vegetable oil in a ratio of 595 g baking soda to 150 g corn starch or 300 g cornstarch to 237 g water or 355 g water to 14 g vegetable oil or 109 g vegetable oil. 15. The simulated explosive material of claim 1, including a mixture of polyethylene powder, cane sugar, glycerin, and powder detergent in a ratio of 800 g polyethylene powder to 400 g cane sugar to 110 g glycerin to 200 g powder detergent. 16. The simulated explosive material of claim 1, including a mixture of polyethylene powder, baking soda, glycerin, and powder detergent in a ratio of one of 600 g polyethylene powder to 250 g baking soda to 81 g glycerin to 150 g powder detergent, 200 g polyethylene powder to 50 g baking soda to 60 g glycerin to 575 g powder detergent, or 50 g polyethylene powder to 150 g baking soda to 60 g glycerin to 700 g powder detergent. 17. The simulated explosive material of claim 1, including a mixture of 75% water, 20% cane sugar, and 5% sodium chloride. 18. The simulated explosive material of claim 1, including a mixture of 62% water, 31% cane sugar, 4% sodium chloride, and 2% corn syrup. 19. A simulated explosive material comprising two or more inert components and having a density substantially similar to a plastic explosive, the density of the simulated explosive material being within a range of from about 1.3 grams per cubic centimeter (g/cm3) to about 1.72 g/cm3, the simulated explosive material configured to produce an output signal consistent with the presence of the plastic explosive when scanned in an X-ray scanner, the two or more inert components selected from among the components of one of the groups consisting of: baking soda and corn starch;baking soda and paraffin wax;sugar and corn syrup;corn starch, baking soda, and glycerin; oralumina and hydrogen peroxide. 20. The simulated explosive material of claim 19, including a mixture of 900 parts dark brown sugar and one of 50 parts corn syrup or 100 parts corn syrup. 21. The simulated explosive material of claim 19, including a mixture of confectioner sugar and corn syrup in a ratio of 907 g of confectioner sugar to 233 g corn syrup or 250 g confectioner sugar to 155 g corn syrup. 22. The simulated explosive material of claim 19, including a mixture of baking soda and paraffin wax in a ratio of 893 g baking soda to 907 g paraffin wax. 23. The simulated explosive material of claim 19, including a mixture of glycerine, corn starch, alumina, and hydrogen peroxide, having a density of about 1.4 g/cm3, and configured to produce an output signal consistent with the presence of Semtex when scanned in an X-ray scanner. 24. The simulated explosive material of claim 23, further comprising water, vegetable oil, and corn starch. 25. The simulated explosive material of claim 19, including a mixture of glycerine, corn starch, alumina, and hydrogen peroxide, having a density of about 1.6 g/cm3, and configured to produce an output signal consistent with the presence of C4 when scanned in an X-ray scanner. 26. The simulated explosive material of claim 19, including a mixture of baking soda and paraffin wax, having a density of about 1.5 g/cm3, and configured to produce an output signal consistent with the presence of PE 4 when scanned in an X-ray scanner. 27. The simulated explosive material of claim 19, including a mixture of baking soda, corn starch, water, and vegetable oil and having a density of about 1.5 g/cm3. 28. The simulated explosive material of claim 19, including a mixture of corn starch, magnesium citrate, baking soda, water, and vegetable oil and having a density of about 1.2 g/cm3. 29. The simulated explosive material of claim 19, including a mixture of polyethylene powder, sugar, glycerine, powdered detergent, and baking soda, and configured to produce an output signal consistent with the presence of PETN when scanned in an X-ray scanner. 30. The simulated explosive material of claim 19, closely matching the look and feel of the plastic explosive.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (17)
Peschmann Kristian R. (San Francisco CA) Harmann Jonathan (San Francisco CA), Automatic concealed object detection system having a pre-scan stage.
Krug Kristoph D. (Framingham MA) Stein Jay A. (Framingham MA) Taylor Adam L. (Boston MA), Device and method for inspection of baggage and other objects.
Adebimpe, David B.; Zgol, Marek A.; Wright, R. Glenn, Method of producing energetically-inert pseudoscents of explosive materials, and compositions thereof.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.