在航运船上熏蒸松板防治松材线虫

在航运船中用磷化氢熏蒸剂处理感染有松材线虫 Bursaphelenchus xylophilus 的几种松木的材板,可减少木材中松材线虫的含量。供本实验用的船只为“Florani”号商船,所载木材总重量为4.3万吨。

圆柱澳松板模板施工技术

结合工程实例,介绍了圆柱澳松板模板的施工工艺原理、特点及适用范围,从模板制作安装、混凝土浇筑、模板拆除等方面,阐述了圆柱澳松板模板的操作要点,提出了具体的质控及安全、环保措施,指出在圆柱模板工程中,运用澳松板的效果优于钢模板和木模板。

高速爆珠滤棒成型机开松板的研究与应用

在卷烟制品生产中,滤棒是主要原料之一。丝束开松是滤棒生产中的主要工序,其开松效果直接影响着滤棒的吸阻,最终影响着卷烟的抽吸品质。常规卷烟的滤棒丝束开松采用单缝开松,能够满足卷烟生产工艺要求的需要,而爆珠卷烟在滤棒中加入了密封的爆珠,导致了滤棒吸阻大幅上升,对卷烟的抽吸品质造成了很大的影响。基于此,对KDF2开松板的长窄缝进行了研究,并对原有的开松板进行改进设计,采用双缝开松,明显提升了丝束的开松效果,解决了爆珠滤棒吸阻偏大的问题。

改性豆粕胶压制长白山臭松包装箱板的研究

以豆粕为原料制备环保型胶黏剂。采用甲苯二异氰酸酯对豆粕胶进行改性,用制成的豆粕-甲苯二异氰酸酯胶黏剂压制长白山臭松包装箱板,并对板的胶合强度进行分析。结果表明:理想的工艺参数为150g水、25g改性剂、5g盐酸。胶合强度能满足GB/T9846—2015标准要求。

数控铣床柔性防松压板设计研究

随着数控机床的普及和制造业水平的不断发展,产品零件的制造精度和表面质量得到显著提高,夹具从中发挥着举足轻重的作用。夹具中使用较多的传统压板类夹具,缺乏统一标准,导致装夹繁琐且调试时间长,严重影响加工的效率。因此研究一种具有较高的精度、较好的互换性和耐磨性的柔性夹具,可以保证零件在机床坐标的位置上准确的定位和夹紧,能保证零件相对于机床坐标G54位置的可靠性。这种柔性夹具有较高的精度和刚度,在粗加工过程中能承受较大的切削力,可充分发挥数控铣床、加工中心的生产效率,在装夹时能对准零件的基准,合理限制零件自由度,确保加工的精度。针对柔性夹紧特点,设计了一种柔性防松压板,将零件在装夹过程中使用的垫块、压板模块、支撑座三个模块组合成一个系统整体,根据零件形状的夹持部位,进行模块的组合。柔性防松压板夹紧力大,具有防松功能,解决了传统压板与垫块、支撑座装夹难的问题。压板在数控铣床上夹紧零件后,可实现机床铣削、钻孔、镗孔、攻螺纹等工序的平稳运行,零件在受力后不会因振动产生松动,保证压板在加工过程中依然能够确保定位精度,承受一定的挤压变形强度。柔性防松压板采用整体设计模式,缩短装夹时间,提高装夹效率。

经椎板间针刀松解配合牵引治疗腰椎间盘突出症临床疗效

目的:探讨经椎板间针刀松解配合牵引治疗腰椎间盘突出症的临床疗效。方法:选取腰椎间盘突出症患者98例,按照随机数字表抽取法分成观察组和对照组各49例,观察组使用经椎板间针刀松解配合牵引治疗,对照组使用常规牵引治疗,对比两组临床治疗效果。结果:观察组总优良率为91.8%(45/49),对照组疗效总优良为79.6%(39/49),两组临床疗效比较差异有统计学意义(P<0.05)。结论:经椎板间针刀松解配合牵引治疗腰椎间盘突出症的临床疗效显著,可以改善临床症状及体征,调节腰椎生物化学平衡,安全可靠,值得临床推广应用。

腰椎间盘突出症经椎板间针刀松解配合牵引治疗的效果观察

目的 探究腰椎间盘突出症经椎板间针刀松解配合牵引治疗的效果.方法 选取我院2012年4月~2015年4月收治的110例腰椎间盘突出症患者,按照患者住院的先后顺序,分成观察组和对照组,各55例.观察组通过椎板间针刀松解配合牵引治疗,对照组给予常规牵引治疗,对比两组临床疗效.结果 观察组的治疗优良率96.36%,对照组的治疗优良率74.55%,差异具有统计学意义,P<0.05.结论 腰椎间盘突出症经椎板间针刀松解配合牵引治疗,临床效果较好,且能确保腰椎生物化学的平衡,治疗安全、可靠,值得临床深入推广.

AF2纤维开松上胶机第三开松器的结构改进

文章通过对滤棒吸阻和硬度质量问题以及AF2丝束开松机构进行分析,提出了AF2第三开松器的改进方案,使出风口各测量点的风压明显改善,从而提高了丝束的开松质量,并使滤棒产品吸阻的稳定性有了明显提高。

赤柏松Ⅰ号岩体的地球化学特征及成岩成矿信息研究

通过对微量元素、同位素及稀土元素的地球化学研究,认为赤柏松岩体是一个同源熔浆多次脉动侵入而成的复式岩体。熔浆在岩浆房发生了重力分异作用,致使其上侵岩相基性程度逐渐增高,含矿性也越来越好,最后由矿浆贯入形成了铜镍硫化物矿体。

RELAXATION BEHAVIOUR OF GFRP UNIDIRECTIONAL LAMINATES

In this paper two set of GFRP specimens are manufactured and tested to investigate the relaxation behaviour under cyclic loading in the longitudinal and transversel direction. The relaxation of GFRP unidirectional laminates is evident for both cyclic loadings. Under longitudinal cyclic loading the relaxation is dependent on the number of loading cycles. Under transverse loading the relaxation depends on the loading cycles as well as the time of loading. Two expressions are set up to describe the relaxation for the longitudinal and transverse loading, and the predictions agree well with the experimental data.

清末刑事附带民事诉讼理论溯源

清末刑事附带民事诉讼理论的直接渊源是日本《刑事诉讼法》(1890)中的私诉条款,其主要论题集中于公诉与私诉之区分、私诉之请求范围以及私诉之程序价值三个方面。该理论在清末的传播,依赖于日籍刑事法专家板仓松太郎、冈田朝太郎的讲授以及清末法科生对二人授课内容的编译。以萧仲祁为代表的理论译介者们对刑事附带民事诉讼的认识并不在制度本身之法理,而是将其作为西方刑事诉讼法的特点之一,通过效仿日本移植法国刑事诉讼法的做法,希冀废除西方列强在华的领事裁判权,恢复司法主权。

Numerical modeling of seismic behavior of ellipse and peanut-shaped auxetic steel plate shear walls

This study proposes a new auxetic-shaped steel plate shear walls(simply referred to as ASSPSWs)consisting of boundary members and built-in perforated infill plates.The connection type between the boundary members is a hinge joint.The hole forms on the infill plates include orthogonal ellipse-shaped(ASSPSW-OE)and orthogonal peanutshaped(ASSPSW-OP).This paper studied the hysteretic performance of two steel plate shear walls’types based on the finite element analysis method.Within the study context,a parametric analysis was carried out to investigate the influence of various factors,such as hole size and hole distance,on the seismic performance of steel plate shear walls(SPSWs).The results indicated that reducing the the ratio of the ligament thickness to ellipse major axis(t/D)in orthogonal ellipse-shaped SPSWs can effectively increase the porosity while reducing the bearing and energy dissipation capacities.Under the condition with the t/D unchanged,increasing the ratio of the major to minor axis of the ellipse(d/D)raises the porosity and does not significantly reduce the bearing capacity and energy dissipation capacity of the SPSWs.For orthogonal peanut-shaped SPSWs,the holes’geometrical parameters significantly influence the hysteretic performance.Particularly,with the increase in the radial ratio of large to small circles in a peanut-shaped hole(R/r),the spacing between cells decreases.When drift exceeds 2%,the equivalent viscous damping ratio decreases sharply.Unlike the orthogonal ellipse-shaped SPSWs,changing the arrangement angle of peanut-shaped cells has no significant effect on orthogonal peanut-shaped SPSWs.However,the larger the angle,the greater the out-of-plane buckling of orthogonal ellipse-shaped SPSWs;thus,the energy dissipation capacity is reduced.The similarities lie in that the larger cell arrangement angle will make the steel plates have a complete stress field,and the bearing capacity will be slightly improved.When the cell arrangement angle(θ)is 45°,the SPSWs can develop high initial stiffness.