The initial residual stress of the polymer bonded explosive based on TATB and its distribution were tested by blind-hole drilling method.
为检查小湾水电站转轮焊接、退火效果,采用了盲孔法及压痕法对转轮退火前后的残余应力进行了测试。
The ultrafine TATB particles are prepared by high-speed gas impacting method and the shape of ultrafine particles is detected by SEM technique.
采用高速气流碰撞法对TATB进行细化,借助SEM技术对超细TATB粒子形貌进行表征。
The results show that the particle size of core is the principal factor affecting the coat effect of fine TATB-BTF core-shell composite particles.
结果表明,核粒大小是影响超细TATB - BT F核-壳型复合粒子包覆效果的主要因素。
The results show that the wetting capability and the wetting speed of as solution on TATB explosive decreases with increasing of the concentration of as solution.
研究表明,随着聚合物溶液浓度的增加,AS溶液在TATB表面的浸润性变差,浸润速度减小。
Methods of eliminating acidity in submicron TATB have been studied applying consecutively the ultrasonic shaking, medium treatment upon heating, dilute alkali treatment etc.
分别采用超声波震荡、加热下介质处理、稀碱处理等方法研究亚微米超细TATB夹杂酸的脱除。
The effect of major factors were studied by means of single factor test and orthogonal test, and the energy output of the sub-micron TATB and that of its raw material were tested.
通过单因素和正交试验对各种影响因素进行了研究,并测试了产品细化前后的能量输出变化。
The results show that molecular interaction at interface of TATB/Fluoropolymer composite is mainly Van der Waals force, and this force can not resist interfacial slippage effectively.
结果表明:TATB/氟聚物复合材料界面的分子间作用主要是范德华力,并且这种力不能有效阻止该界面的滑移。
The rules of dimension change of plastic bonded explosive PBX TATB charges during thermal cycling were studied in detail, and the methods of reducing the permanent expansion were studied.
研究了塑料粘结炸药PB X TAT B药柱在热循环过程中的尺寸变化规律,探索了减小永久性长大的方法。
The adsorption behave of TATB in the two-component polymer solution of AS and F2314 have been explored by means of Gel Permeation Chromatography(GPC) and X-ray Photoelectron Spectroscopy (XPS).
采用凝胶渗透色谱(GPC)和X射线光电子能谱(XPS)研究了TATB炸药在AS/F2314两种组分的聚合物混合溶液的吸附行为。
Mix of TATB and RDX is used as main explosive, and mixture of EVA and F26 as polymer binder. Through slow cook-off tests and small scale gap tests, the composition proportion has been determined.
该配方采用TATB和RDX的混合物作主体炸药,EVA和F26的共混物作粘结剂,通过慢速烤燃和小隔板试验确定了组分配比。
Mix of TATB and RDX is used as main explosive, and mixture of EVA and F26 as polymer binder. Through slow cook-off tests and small scale gap tests, the composition proportion has been determined.
该配方采用TATB和RDX的混合物作主体炸药,EVA和F26的共混物作粘结剂,通过慢速烤燃和小隔板试验确定了组分配比。
应用推荐