北斗导航终端设备可靠性加速试验与快速评价技术研究

针对北斗导航终端设备开展传统可靠性试验时间长、成本高,难以实现在短期内完成高可靠性指标考核的现状,借鉴加速试验建模技术和相关标准的加速模型参数,进行北斗导航整机可靠性加速建模,设计加速试验剖面和方案,预先评估出北斗导航终端设备的加速因子,通过一组样品即可完成北斗导航的加速试验,实现对北斗导航终端设备高可靠性指标的快速评估。     

军用集成电路质量控制方法分析与探讨

集成电路是军用电子设备最重要的器件之一,集成电路的质量直接影响到军用装备的质量。从集成电路的选择、二次筛选和破坏性物理分析(DPA)这几个方面探讨了军用集成电路的质量控制方法。实践证明通过质量控制筛选得到的集成电路整批使用可靠性都有明显的提高。     

甲醛降解菌的筛选及降解特性研究

从采集活性污泥中筛选得到1株具有高效降解甲醛能力的菌株并命名为JQ-1,根据其形态特征,初步判断菌株JQ-1属假单胞菌属。同时对菌株JQ-1的生长特性及降解特性进行了初步研究。实验结果表明,该菌株降解甲醛的最适条件为：甲醛废水浓度为50mg／L,pH值为6,培养温度为25℃,摇床转速为150r／min。在最适条件下,菌株JQ-1具有较强的降解甲醛能力,当甲醛废水浓度为50mg／L时,在24h内甲醛降解率可达87％以上。     

厌氧菌对硝基苯污染河道底泥的修复研究

在厌氧条件下,以长期受硝基苯（NB）污染的化工厂排污口底泥和河道底泥混合为菌源,分离纯化出4株能厌氧降解硝基苯的细菌。其中菌株N-O在低温（10℃）条件下可以快速去除20 mg·L^-1的硝基苯。在松花江（吉林市段）底泥中分别接种10 mL·L^-1、20 mL·L^-1、30 mL·L^-1、40 mL·L^-1（菌悬液/处理溶液）N-O菌进行NB降解研究,结果表明接种30 mL·L^-1时,N-O菌对底泥中NB的降解效果明显,72h内达到了NB的完全去除;但是该菌对降解副产物苯胺（AN）几乎没有去除效果,寻求在厌氧环境下同步降解NB、AN的优势菌,将非常迫切。     

电子产品环境应力筛选试验

为了使环境应力筛选试验在有效提高电子产品的可靠性方面得以广泛应用,介绍了环境应力筛选试验的概念,针对电子产品,论述了环境应力筛选典型应力参数的确定方法、加电检测的原则、筛选度和故障率的计算、筛选中暴露的典型缺陷等。提出了环境应力筛选试验的一般程序和一些需注意的问题。     

Effects of long-term amendment of organic manure and nitrogen fertilizer on nitrous oxide emission in a sandy loam soil

To understand the effects of long-term amendment of organic manure and N fertilizer on N2O emission in the North China Plain, a laboratory incubation at different temperatures and soil moistures were carried out using soils treated with organic manure （OM）, half organic manure plus half fertilizer N （HOM）, fertilizer NPK （NPK）, fertilizer NP （NP）, fertilizer NK （NK）, fertilizer PK （NK） and control （CK） since 1989. Cumulative N2O emission in OM soil during the 17 d incubation period was slightly higher than in NPK soil under optimum nitrification conditions （25℃ and 60% water-filled pore space, WFPS）, but more than twice under the optimum denitrification conditions （35℃ and 90% WFPS）. N2O produced by denitrification was 2.1-2.3 times greater than that by nitrification in OM and HOM soils, but only 1.5 times greater in NPK and NP soils. These results implied that the long-term amendment of organic manure could significantly increase the N2O emission via denitrification in OM soil as compared to NPK soil. This is quite different from field measurement between OM soil and NPK soil. Substantial inhibition of the formation of anaerobic environment for denitrification in field might result in no marked difference in N2O emission between OM and NPK soils. This is due in part to more rapid oxygen diffusion in coarse textured soils than consumption by aerobic microbes until WFPS was 75% and to low easily decomposed organic C of organic manure. This finding suggested that addition of organic manure in the tested sandy loam might be a good management option since it seldom caused a burst of N2O emission but sequestered atmospheric C and maintained efficiently applied N in soil.