助手标题
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
共[25]条 当前为第1条到20条
 

相关语句
explosives
    Progress of Study on Adhesives Used for Explosives
    炸药用胶粘剂的研究进展
    1,3,3-trinitroazetidine (TNAZ) is a new kind of energetic materials with the advantages of low melting point, low sensitivity, high energy, good thermal stability and easy to form eutectics with other energetic materials. The TNAZ is especially suitable for the application as a component of solid propellants and explosives.
    1,3,3-三硝基氮杂环丁烷(TNAZ)是一种新型含能材料,由于其具有熔点低、感度低、能量高、热稳定好、易与其他含能材料形成低共熔物等优点,特别适于用作固体推进剂和炸药组分。
    Studies on the Preparation and Properties of Nanocrystalline Catalysts Used in Explosives and Propellants
    火炸药用纳米催化剂的制备及性能研究
    Study on Room-temperature-vulcanization Silicon Rubber Adhesive to Explosives
    粘接炸药的室温硫化硅橡胶胶粘剂的研究
    Industrial Explosives and Its Development Process and Present Situation in USA,Japan and China
    浅析美日中工业炸药的发展近况
    Study on Two Components of the Room-temperature-vulcanization Silicone Rubber Adhesives for Special Explosives
    粘接特种炸药的双组份室温硫化硅橡胶的研究
    The technology of propellants and explosives is one of the key national defence technologies that are largly developed in many countries. The combustion property of propellants and explosives is the most important technology of propellants and explosives.
    火炸药技术是世界各国竞相重点发展的国防科技关键技术之一,火炸药的燃烧是火炸药技术的核心。
    Using less combustion catalyst is the best method that is used to adjust the combustion property of propellants and explosives, especially solid propellants. In this Ph.
    使用少量燃烧催化剂是调节火炸药,特别是固体推进剂燃烧性能的最佳途径。
    1. Firstly, nanocrystalline CuO, PbO, Fe2O3 et al. were prepared, because these mono-metal oxides are usually used in propellants and explosives. The catalysis of these nanoscale materials on the thermal decomposition of energetic material NH4CIO4 (AP) was investigated by thermal analysis.
    1.首先对火炸药领域应用较广泛的燃烧催化剂CuO、Fe_2O_3、PbO等一元金属氧化物进行了纳米化制备,并用热分析法考察了这些纳米材料对含能材料高氯酸铵(AP)热分解的催化性能。
    This paper is concentrated on adhesive intensity improvement of two components of the room-temperature-vulcanization silicone rubber adhesives to special explosives.
    本课题的研究目的是提高双组份室温硫化硅橡胶胶粘剂对特种炸药的粘接强度。
    The interaction betwween adhesive and the special explosives is improved effectively by useing acrylic acid,polyurethane,MQ silicone resin to modify silicone rubber,managing the surface of special explosives,reinforcing with filler.
    我们以羟基封端的室温硫化硅橡胶为基础胶,用丙烯酸、聚氨酯、MQ硅树脂三种方式改性硅橡胶,并结合采用偶联剂预处理炸药粘接面、填料增强,有效提高了对特种炸药的粘接力。
    Results show that modifying silicone rubber with acrylic acid,polyurethane, MQsilicone resin can reinforce the adhesive intensity to special explosives,thesilicone rubber adhesive which is modified by acrylic acid or MQ silicone resin is compatible with special explosives,but the silicone rubber adhesive which is modified by polyurethane is not compatible with special explosives.
    实验发现:用丙烯酸、聚氨酯、MQ硅树脂改性硅橡胶能明显增强胶粘剂对特种炸药的粘接力; 丙烯酸改性硅橡胶、MQ硅树脂改性硅橡胶与特种炸药相容,聚氨酯(PU)改性硅橡胶与其不相容。
    The pressure-sensitive adhesive should have good mechanical performance, besides it should have other special performance below: good comparability to explosives contacted in use, good reserved performance, no adhesive infiltration in inner of cushion, no residues when debinding, and it would be best that it has antistatic performance.
    该胶除具有较好的力学性能外,还应具有以下性能:与接触炸药相容性满足要求,贮存期较长,胶不渗入泡沫切片内部,剥离时无残留,且最好具有抗静电性能。
    It is very obvious that bonds influence the mechanical property of the Polymer Bonded Explosives (PBX) greatly. The surface properties of the different kinds of bonds affect their adhesive functions extremely.
    塑料粘结炸药(Polymer Bonded eXplosive,PBX)的力学性能是衡量其质量的一项重要指标,PBX中使用的粘结剂显著影响其力学性能。
    Strong interaction between TPUE and high explosives were proved through the studies of surface tension.
    由接触角测试得到了TPUE与RDX的表面能,计算出两者的界面参数,探讨了TPUE粘结炸药的机理。
    Branched glycidyl azide polymer (B GAP) can be used to improve the rheologic characteristics and mechanical properties of solid propellants and plastic bonded explosives.
    支化叠氮缩水甘油醚聚合物(BGAP)能很好地改善推进剂及塑料粘结炸药(PBX)的装药工艺性质及力学性能。
    And the modified silicon rubber added with acid and base coupling agent was investigated as a bonding material for JOB-9003 and JOB-9005 explosives.
    用甲基丙烯酸 (酯 )改性 10 7硅橡胶胶粘剂并配用酸性偶联剂和碱性偶联剂对JOB -90 0 3、JH -90 0 5炸药进行粘接试验 ,结果表明 ,改性后的硅橡胶具有较高的粘接力。
    Diphenylamine was originally used as stabilizer for fiber and explosives containing nitrogen, and now it has become an important raw material of rubber auxiliaries, dyestuff and pharmaceuticals.
    二苯胺最初作为纤维和含氮类炸药的稳定剂,现在已成为橡胶助剂、染料和医药的重要原料。
    This paper has briefly introduced the types and consumption of industrial explosives used in USA,Japan and China after War Ⅱ, and analyzed the reason that the output of various industrial explosives changes in different historical periods.
    文章简要介绍了二战后美国、日本、中国工业炸药的品种及消耗量 ,并分析了不同历史时期各个炸药品种产量变化的原因。
    In addition, It is also predicted the developing direction of the industrial explosives and ANFO explosives will be the most important industrial explosives in the future.
    此外 ,还对今后的工业炸药发展方向作了预测 ,指出铵油炸药今后仍将是最重要的工业炸药品种
 

首页上一页12下一页尾页 

 
CNKI主页设CNKI翻译助手为主页 | 收藏CNKI翻译助手 | 广告服务 | 英文学术搜索
版权图标  2008 CNKI-中国知网
京ICP证040431号 互联网出版许可证 新出网证(京)字008号
北京市公安局海淀分局 备案号:110 1081725
版权图标 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社