多种铝热剂复配设计及其热性能
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摘要
为寻找金属基可燃胶体的最佳配方,同时减少工作量,首先利用配方均匀设计理论对Al/Fe_3O_4、Al/CuO、Al/Y、Al/KNO_3四种成分进行配方均匀设计;其次利用DPS数据处理系统进行二次逐步线性回归分析建模;然后利用U10*(10~8)均匀设计表设计10次不同配方,对模型的可靠性进行验证;最后对利用MATLAB建立的三维可视化模型进行预测。结果表明:金属基可燃胶体最佳配方为ω(Al/KNO_3)=14%,ω(Al/Fe_3O_4)=32%,ω(Al/CuO)=28%,ω(Al/YO_3)=26%,此时可达到的理论最高值为1 873.6℃。
In order to find out the best formula for the metal-based flammable colloid and reduce the workload at the same time,first of all,the formula uniform design theory is used to design the four components of Al/Fe_3O_4,Al/CuO,Al/Y and Al/KNO_3. Secondly,the DPS data processing system is used for quadratic form regression analysis and modeling,and U10*( 10~8) uniform design table is used to design10 different formulas to verify the reliability of the model. Finally,a three-dimensional visual model is established and measured by using MATLAB. The results show that the best formula of metal-based flammable colloids is ω( Al/KNO_3) = 14%,ω( Al/Fe_3O_4) = 32%,ω( Al/CuO) = 28%,ω( Al/YO_3) =26%,and the maximum theoretical temperature of the formula reached is 1 873. 6 ℃.
In order to find out the best formula for the metal-based flammable colloid and reduce the workload at the same time,first of all,the formula uniform design theory is used to design the four components of Al/Fe_3O_4,Al/CuO,Al/Y and Al/KNO_3. Secondly,the DPS data processing system is used for quadratic form regression analysis and modeling,and U10*( 10~8) uniform design table is used to design10 different formulas to verify the reliability of the model. Finally,a three-dimensional visual model is established and measured by using MATLAB. The results show that the best formula of metal-based flammable colloids is ω( Al/KNO_3) = 14%,ω( Al/Fe_3O_4) = 32%,ω( Al/CuO) = 28%,ω( Al/YO_3) =26%,and the maximum theoretical temperature of the formula reached is 1 873. 6 ℃.
引文
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[2]于淑宝,汪旭光,王伯银.被覆爆炸法:销毁常规废旧弹药的技术[J].工程爆破,2016,22(6):83-86.
[3]黄鹏波,张怀智,谢全民,等.废弃常规弹药销毁技术综述[J].工程爆破,2013,19(6):53-56.
[4]王鹏,张靖.烟火切割剂力学分析及药剂配方设计与实验[J].含能材料,2011,19(4):459-463.
[5]张启功,安振涛,肖辉,等.基于金属熔流的未爆弹药销毁技术研究进展[J].工程爆破,2016,22(4):47-51.
[6]SONG E.Thermite destructive device:US5698812[P].1997-12-16.
[7]HEINRICH H.Hazardous material disposal,especially chemical munitions disposal:DE19740089[P].1998-03-12.
[8]吴永胜.一种手工自蔓延切割技术的研究[D].石家庄:军械工程学院,2009:15-26.
[9]宋佳星,方向,周鹏,等.火焰射流型高热剂在废旧弹药销毁中的应用初探[J].火工品,2016(5):46-49.
[10]易建坤,吴腾芳.高热剂燃烧法销毁薄壁弹药的试验研究[J].火工品,2005(1):17-21.
[11]易建坤,吴腾芳,贺五一.用于弹药燃烧销毁的高热剂配方试验研究[J].爆破,2005,22(1):107-111.
[12]方开泰.均匀设计与均匀设计表[M].北京:科学出版社,1994:35-52.
[13]FISCHER S,GRUBELICH M.A survey of combustible metals,thermites,and intermetallics for pyrotechnic applications[C]∥The 32nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference.July 1-3,1996,Lake Buena Vista,FL:1-13.
[14]李钒,李文超.冶金与材料热力学[M].北京:冶金工业出版社,2012:464-466.
[15]周建中,田进,薛国华.Si-Bi2O3对Al-Cu O铝热剂点火性能的影响[J].广东化工,2016,43(12):58-61.
[16]潘功配.高等烟火学[M].哈尔滨:哈尔滨工业大学出版社,2007:214.
[17]车剑飞,肖迎红,宋晔.高分子材料配方均匀设计系统[J].现代塑料加工应用,2002,14(1):24-26.
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