粗晶硬质合金强度和致密度影响因素的研究

针对粗晶WC-Co硬质合金的成分和工艺优化要求,运用正交实验设计,考察了含碳量、烧结工艺、钴含量、镍含量、球磨球料比和球磨时间对试样抗弯强度和体积收缩率的影响。研究表明,烧结制度是影响抗弯强度的最主要因素;其次是碳含量与烧结工艺的交互作用、Co含量与球磨时间的交互作用。烧结工艺是影响体积收缩率的最主要因素。     

高性能混凝土自收缩问题的研究

文章分析了高性能混凝土自收缩现象产生的原因和影响因素,探讨了高性能混凝土自收缩应力的分析方法,提出了改善混凝土自收缩现象的方法.     

高速铁路无碴轨道预应力连续梁徐变影响分析

随着我国高速铁路事业的发展,越来越多的大跨连续梁桥得到应用.但是过去建设的大跨连续梁已有不少出现了挠度增大及表面开裂等现象,引起这些现象最重要的原因是混凝土的收缩徐变效应.本文选取合理的徐变系数后,从相对湿度、加载张拉龄期、二期恒载上桥时间三个因素对徐变影响进行研究,提出控制后期挠度变形的建议.     

泡沫混凝土配合比的设计

在研究泡沫混凝土各种原材料性能及大量实验和中试生产实践基础上,运用数理统计归纳分析,设计出既能满足泡沫混凝土干密度、导热率、强度、浇筑稳定性等技术要求,又经济合理、易于操作的各种原材料配合比,达到控制泡沫混凝土导热系数和抗压强度的目的,进而指导泡沫混凝土生产工艺过程,确保产品质量.     

棉类裤装缝口缩皱的影响因素

以棉类裤装为研究案例,通过实验,分析缝缩产生的规律.选用10种厚薄不同的棉质面料用不同的缝制工艺做成裤装,并选择不同的水洗工艺进行后处理,测量样裤主要部位的尺寸缝缩量.测量部位主要考虑对裤装造型产生重要作用的四个部位:侧缝、前浪、后浪、腰头.通过主成分分析和数理统计显示:面密度、面料组织结构、洗水处理和缝制条件是四个影响缝缩的主要因素;其中影响最大的因素为面密度,其次为面密度和缝纫条件的交互作用,另外,丝缕方向也有一定影响.     

冻结方式影响试样内部结构变化的CT研究

利用CT技术可以在不破坏土体结构的情况下,连续不间断的观测到土体试样内各局部区域参数的变化.研究了两种粉质黏土试样分别以不同冻结方式进行冻结,并对试样进行了无损CT扫描,比较了冻结前后的CT数变化,由此定量得到试样内部各区域含水量和干密度的变化程度.结果表明:对于初始均匀的试样而言,不同冻结方式,对试样冻结后其内部含水量和干密度的变化的影响程度及趋势是不同的,比较而言,轴向冻结方式对冻土试样内部含水量的变化影响要小于径向冻结方式.     

改进干法腈纶纤维颜色的研究

国产干法腈纶纤维“b”颜色值与进口样品有较大差距,根据原料工艺路线、化学反应机理,对影响腈纶纤维尊色变化的原因进行了分析,找出了主要影响纤维颜色的因素,对纤维颜色增深产生在纺丝原液制备过程的若干因素,进行定性和定量分析,解决了干法腈纶纤维“b”颜色值高的问题,提出进一步增加腈纶纤维白度的实用性生产方法。     

Phosphate sorption isotherms in relation to P nutrition of wheat (Triticum aestivum)

The phosphate sorption isotherms are needed to explain differential plant responses to P fertilization in soils. Laboratory and greenhouse experiments investigated the use of phosphorus sorption isotherms in relation to P fertilizer requirement of wheat in ten benchmark soils of Punjab, India. The modified Mitscherlich Equation (3) was used to describe plant response observed in different soils. Maximum obtainable yield (MOY) ranged from 11.6 g pot^–1 in Gurdaspur (I) sandy clay loam to 7.0 g pot^–1 in Nabha sandy clay loam. Response to P applied @ 25 mg P kg^–1 soil was maximum (77%) in Bathinda sand and minimum in Chuharpur clay loam (33%). The response curvature varied from 3.74 × 10^–2 in Nabha sandy clay loam to 4.43 × 10^–2 in Kanjli sandy loam. The soil solution P required to produce optimum yield (90% MOY) varied from 1.61 µg ml^–1 in Bathinda sand to 0.10 µg ml^–1 in Sadhugarh clay. Dry matter yield obtained at 0.2 µg ml^–1 solution P concentration ranged from 55% in Bathinda sand to 85% of MOY in Gurdaspur (II) clay loam. At the same solution P concentration (0.1 µg P ml^–1), dry matter yield was 91% in Sadhugarh clay, 80% in Gurdaspur (II) clay loam and, 43% of MOY in Bathinda sand and eventually coincided with the decreasing maximum buffer capacity (MBC) in these soils. At the same level of sorbed P (100 mg P kg^–1 soil) the yield was observed to be inversely proportional to MBC. The study, therefore, concludes that, soils should be grouped according to their P sorption characteristics and MBC before using critical soil solution P as a criterion for obtaining optimum yields.     

Pressureless low temperature sintering of nanocrystalline zirconia ceramics via dry powder processing

Pressureless sintering approaches provide a simple avenue to manufacture dense ceramic parts with minimal processing equipment, but current pressureless sintering techniques have yet to demonstrate capabilities of producing dense ceramics while maintaining sub-50 nm grain sizes. Nanocrystalline yttria stablized zirconia ceramics were process from 4 mol% yttria stablized zirconia (4YSZ) nanopowders with a crystallite size of 7.5 nm using dry cold isostatic pressing (CIP) where powders are dried immediately prior to green compact formation and CIP vacuum bagging. It is shown that CIP pressures >75 000 psi (517 MPa) effectively remove pores larger than 100 nm and that pressureless sintering occurs at reduced temperatures for green densities ≥50%. Though the sintering kinetics are shown to be similar to other zirconia nanopowder sintering studies, the small initial crystallize size and reduced sintering temperature allowed densities as high as 97.2%, while retaining a ceramic grain size at or below 40 nm. Produced nanocrystalline 4YSZ ceramics with a grain size of 30.3 nm and a density of 96.3% had Vicker's hardnesses as high as 14.2 GPa and Vicker's indentation fracture resistance of 3.43 MPa·, demonstrating that simple processing approaches can be refined to fabricate nanocrystalline ceramics while maintaining high hardness and indentation fracture resistance.     

低速纺制8.3tex三角异形有光PET长丝——Ⅰ.前纺工艺研究

用VC403纺丝机纺制题示纤维。对设备及工艺进行了改进:在切片干燥前加入0.01%的硬酯酸钙,以增加切片的润滑性能;干燥升温阶段放慢升温速率,冷却阶段通入减湿空气。在切片含水率≤0.006%的情况下,纺丝温度应控制比同规格半消光PET高8—12℃;吹风温度为40—50℃,吹风速度0.2—0.3m/s;加强喷丝板保温;改进吹风窗结构及设计水字形喷丝孔形。