广义螺旋曲面工件轮廓度统一测量方法

对国标规定的标准螺旋曲面的测量方法进行分析,得出普通螺纹和丝杠形位误差测量方法中的共性问题。利用微分几何的曲面包络理论,结合坐标投影变换法和相对运动法对工件的曲面方程进行研究,得到了在母线曲面已知的情况下广义螺旋曲面的统一方程。通过广义螺旋曲面测量要素分析,得出异型螺旋面的测量方法。结合曲面统一方程,提出了广义螺旋面的统一测量方法。实例表明,该方法能够快速、准确地测量出对应工件的型面尺寸,避免了测量的复杂性和低效性。     

活塞-缸套周期性瞬态传热仿真

为解决计算柴油机单个零部件传热时边界条件难以确定的问题,用耦合传热的方法,把活塞、缸套传热时的外边界条件变成内边界处理,利用有限元软件进行建模仿真。以X6130型柴油机为例,用有限元分析软件ANSYS建立了活塞-缸套的三维模型,并对其额定工况下一个工作循环内的瞬态传热进行了仿真计算,得到了活塞-缸套上关键点的温度波动曲线。部分计算结果和实验结果对比表明：用耦合方法模拟活塞-缸套之间的传热过程是可行的,且仿真结果与实测数据吻合较好。     

柔性坐标测量机参数辨识方法

设计了一种六自由度关节式柔性坐标测量机,并对该测量机测量方程中的参数进行了辨识,提出了一种快速简易的单点锥窝标定方法。该方法基于单点锥窝提供的空间单点基准,利用非线性最小二乘中的高斯-牛顿法,求解测量机测量方程的参数值。实验结果表明,该方法能够有效提高测量机的整体精度,且操作简单、计算效率高。     

不同整枝方式对贝贝南瓜生长、果实特性及产量的影响

为提高贝贝南瓜的种植水平和种植效益,筛选适宜的整枝方式,以不整枝栽培为对照,研究了单蔓、双蔓、三蔓整枝方式对贝贝南瓜的品质及产量的影响。结果表明：采用双蔓整枝、三蔓整枝方式比对照分别提早采收4、3 d,叶片浓绿,长势较好,病虫害发生较少,第1雌花节位低,分别在7.3、7.4节,坐果率分别为97.00%、95.83%,果型大小均匀,平均单果质量分别为0.40、0.38 kg。双蔓整枝方式667 m²产量可达2 502.06 kg,三蔓整枝方式次之,为2 467.5 kg,分别较对照显著提高58.2%、44.1%。生产中建议贝贝南瓜选择双蔓整枝方式为最佳,可促进南瓜早熟,提高坐果率,降低畸形果率,提高产量;三蔓枝可备选。     

淮安市农业科技成果转化评价体系构建及实证分析

农业科技成果转化在我国农业现代化发展进程中发挥着至关重要的作用。本文在构建农业科技成果转化综合评价体系的基础上,运用层次分析法、专家征询法对淮安市农业科技成果转化进行实证研究,并在人才团队、企业创新、校企合作等方面提出加快地方农业科技成果转化的对策,以期充分发挥科技对农业经济社会发展的重要支撑作用。     

我国辣椒育种研究进展(上)

概述了我国辣椒种质资源、育种目标及育种方法等方面的研究进展，并对今后的辣椒育种工作提出了建议。     

永久性贮水池在水灭火法扑救森林火灾中的运用

本文简要阐述了水灭火法灭火原理与系统组成,提出通过建立永久性贮水池促进水灭火法将成为我国林火扑救重要手段的发展设想。     

先张法预应力空心板纵向开裂的防治

多年来先张法预应力空心板在中、小桥结构物中一直被广泛应用.但在设计回访中发现,部分空心板板底多存在有纵向裂缝的问题,为有效杜绝此弊病的发生,本文对其产生的原因进行了分析并提出了预防措施.     

海洋SOD抗疲劳作用动物实验方法初探

超氧化物歧化酶(SOD)具有防止细胞过度氧化的生理功能,从海洋生物中提取的SOD,可用于清除运动产生的自由基,起到抗疲劳作用.本文探讨了SOD抗疲劳作用的动物实验方法,为验证SOD抗疲劳效果建立技术平台.     

Effect of bulk density and soil water tension on denitrification in the rhizosphere of spring wheat (Triticum vulgare

Summary Pot experiments were carried out to study the influence of bulk density (D _b), soil water tension (pF) and presence of plants (spring wheat) on denitrification in a low-humus B_t-horizon of a udalf. Pots of only 5-cm depth were found to be most suitable for the experiments when using the acetylene inhibition method. Almost homogeneous soil compaction between 1.1 and 1.6g soil cm^–3 was achieved by a Proctor tamper. Water tensions were adjusted by means of ceramic plates on which negative pressure was applied. No denitrification was detected in unplanted pots. With planted pots and increasing bulk density denitrification increased more in pots with 14-day-old plants than in pots with 7-day-old plants. With 14-day-old plants N₂O emission pot^–1 increased steadily from 2 mol at D _b 1.1 to 8 mol at D _b 1.6, when soil moisture was adjusted to pF 1.5, although root growth was impaired by higher bulk density. From an experiment with different bulk densities and water tensions it could be deduced that the air-filled porosity ultimately determined the rate of denitrification. When low water tension was applied for a longer period, water tension had an overriding effect on total denitrification. Denitrification intensity, however, i.e. the amount of N₂O g^–1 root fresh weight, was highest when low water tension was accompanied by high bulk density. The results suggest that the increase in denitrification intensity at oxygen stress is partly due to higher root exudation.