Analysis on Combining Ability and Genetic Parameters of Main Agronomic Characters of 22 Maize Inbred Lines

The general combining ability（GCA）, special combining ability（SCA） and genetic parameter of ten characters of 22 maize inbred lines including plant height and ear height were analyzed using 10×12 through incomplete diallel cross（NC Ⅱ）.The results showed that：（1） Among the 22 maize inbred lines, the yield GCAs of11 HN 097, 11 HN 099, 11 HN 105 and 11 HN 110 were high, which were elite inbred lines to collocate hybridized combinations with strong heterosis. The yield of11 HN110 × 11 HN097, 11 HN110 × 11 HN105, 11 HN112 × 11 HN 097 and 11 HN 106 × 11 HN 104 were in the first four place. The yielding abilities, adaptabilities and yielding stabilities of the four combinations can be further identified by experiment. The heredities of the ten characters were mainly controlled by additive gene effect whereas the influence of non-addictive gene effect was small. The narrow heritabilities of plant height, ear height, ear rows, ear length, kernels per row,100-grain weight and seed-producing percentage were more than 50%. The variances were mainly caused by heredity and early-generation selection should be conducted. The narrow heritabilities of ear diameter, bare tip length and yield was low, which should not be selected in early-generation.

Dependence of Amorphous Formation Ability on Intrinsic Parameters in Dy-Gd-Co-Al Alloys

A series of Dy（Gd）-based bulk amorphous alloy rods were prepared by water-cooled copper mold method. Thermal stability and structure of Dy-Gd-Co-Al alloys were investigated by differential scanning calorimetry and X-ray diffraction, respectively. The results show that the Dy-Gd-Co-Al alloys have good glass-formation ability, and the Dy31Gd25Co20Al24 alloy can be readily cast into full glassy rods up to 5 mm in diameter. The glass-forming ability of multicomponent alloys was greatly dependent on their chemical interaction and the equivalent bond parameters among atoms such as equivalent electronegativity difference, equivalent atomic size parameter. The Dy （Gd）-based bulk amorphous alloys could be expected as potential functional materials.

Combining Ability and Correlation of Ear Characteristics of Twenty Maize Inbred Lines

The combining ability and correlation of eight ear characteristics in 99 maize hybrids generated by crossing nine female parents with 11 male parents were analyzed by incomplete diallel cross （NC II ） design. The results showed that the line F6 had the highest general combining ability （GCA） for yield, followed by F7, M3, M4 and M8. All of the five lines have great potential in maize breeding. The cross combination M3xF10 had the highest specific combining ability （SCA） for yield, showing strong heterosis. Heritability analysis of ear characteristics showed that GCA variance was higher than SCA variance in ear diameter, number of rows per ear and seed rate, and they were mainly controlled by the additive gene effect, indicating that that the selections for these traits are effective at early generations. The other three traits had lower SCA, for which the selections should be carried out at late generations. The correlation analysis revealed that ear length, number of grains per row, ear diameter, number of rows per ear, 100-seed weight and seed rate had extremely significant positive correlations with grain yield per plant. Among them, number of grains per row had the most significant effect on yield per plant. Barren tip length had a significant negative correlation with grain yield per plant. Therefore, we concluded that the combinations with more grains per row and shorter barren tip should be selected to achieve high yield of maize.

Evaluation of the mold-filling ability of alloy melt in squeeze casting

The mold-filling ability of alloy mclt in squceze casting process was evaluated by means of the maximum length of Archimedes spiral line. A theoretical evaluating model to predict the maximum filling length was built based on the flowing theory of the incompressible viscous fluid. It was proved by experiments and calculations that the mold-tilling pressure and velocity are prominent influencing factors on the mold-filling ability of alloy melt. The mold-filling ability increases with the increase of the mold-filling pressure and the decrease of the proper mold-filling velocity. Moreover, the pouring temperature relatively has less effect on the mold-filling ability under the experimental conditions. The maximum deviation of theoretical calculating values with experimental results is less than 15%. The model can quantitatively estimate the effect of every factor on the mold-filling ability.

Deep-Sea Cobalt Crusts Water Jet Cutting Ability

Deep-sea cobalt crusts water jet cutting method is proposed to avoid cutter impact load. With simulation calculations and experimental tests, water jet system parameters and its cutting ability were studied. Simula-tion results show that working pressure, ejection range and ejection angle of water jet system are main parameters of its cutting ability. Its important degree is in turn the working pressure, ejection range and ejection angle. Increasing water jet system working pressure is the most effective way to improve its cutting ability. When water jet working pressure is constant, in order to improve its cutting ability, the ejection range should be less than 4mm (four times of nozzle diameter) and the ejection angle should be about 13o. Experimental results show that there is a threshold pressure during water jet cutting cobalt crusts simulation material. With the increase of water jet working pressure, its cutting ability increases dramatically. With the increasing of water jet ejection range, its cutting ability decreases sharply. The optimal ejection angle is about 13o

A Modified Glass Formation Criterion for Various Glass Forming Liquids with Higher Reliability

A modified indicator of the glass forming ability （GFA） from the previous 7 = Tx/（Tl ＋ Tg） for various glass forming liquids is proposed based on a conceptual approach which combines more acceptable physical metallurgy views in terms of the time-temperature-transformation diagrams. It is found that the glass forming ability for glass forming liquids is closely associated mainly with two factors, i.e. （2Tx - Tg） and Tl （wherein Tx is the onset crystallization temperature, Tg the glass transition temperature, and Tl the liquidus temperature）, and could be predicated by a unified parameter γm defined as （2Tx - Tg）/Tl. This approach is confirmed and validated by experimental data in various glass forming systems including oxide glasses, cryoprotectants and metallic glasses, which all shows a higher reliability when their glass forming ability is predicted by the modified parameter.

Fragility and glass forming ability of Al-Ni-Ce alloy melts

The fragility of Al Ni Ce alloy melts with three kinds of different compositions, Al85Ni10Ce5, Al85Ni8Ce7, Al85Ni5Ce10(mole fraction, %), was studied using oscillating vessel viscometer and differential scanning calorimetry. Their fragility parameters obtained from experiments and theoretic calculation are: 238, 228 and 335 respectively. The results indicate that these three kinds of Al Ni Ce alloy melts are very fragile liquids, which kinetically show strong non Arrhenius behaviour in the Angell plot, so they have poor glass forming ability (GFA). The alloy melt Al85Ni5Ce10 has the largest fragility parameter among the three alloy melts. In the preparation of rapidly quenched amorphous ribbons, Al85Ni10Ce5 and Al85Ni8Ce7 can gain amorphous ribbons when the rotate speed of the roller reaches 800 r/min, while for Al85Ni5Ce10 it must exceed 1 000 r/min.

枸杞多糖对奶牛生产性能、瘤胃发酵参数、血清抗氧化及免疫能力的影响

文章旨在研究枸杞多糖对奶牛生产性能、瘤胃发酵参数、抗氧化及免疫能力的影响。试验采用抽签法将80头身体健康、年龄和胎次相近、产奶量(29±1.00)kg/d的荷斯坦奶牛均分成4组,分别为对照组(基础日粮)、试验Ⅰ组(基础日粮+0.3%枸杞多糖)、试验Ⅱ组(基础日粮+0.6%枸杞多糖)和试验Ⅲ组(基础日粮+0.9%枸杞多糖),每组4个重复,每个重复5头奶牛,试验为期84 d。结果显示:与对照组相比,试验Ⅰ、Ⅱ、Ⅲ组奶牛的平均日采食量和平均日产奶量显著升高(P<0.05),料奶比显著降低(P<0.05),瘤胃发酵参数中的氨态氮和总挥发性脂肪酸含量、颈静脉血血清中的总抗氧化能力(T-AOC)、超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GSH-Px)、免疫球蛋白A(IgA)、免疫球蛋白G(IgG)和免疫球蛋白M(IgM)含量显著升高(P<0.05),颈静脉血血清中的丙二醛(MDA)含量显著降低(P<0.05)。以上结果表明,在基础日粮中添加枸杞多糖不仅能显著改善奶牛的生产性能和瘤胃发酵参数,还可以显著提高奶牛机体的抗氧化能力和免疫能力,在本试验条件下,在基础日粮中添加0.6%的枸杞多糖作用效果最优。

基于互联网的团队式体质量强化管理干预在肥胖患者中的应用效果

目的探讨基于互联网的团队式体质量强化管理干预在肥胖患者中的应用效果。方法选择2022年9月—2023年5月江苏省中医院收治的80例肥胖患者作为研究对象,按照随机数表法将其分为对照组和研究组,每组40例。对照组给予常规生活方式干预,研究组在对照组干预基础上联合开展基于互联网的团队式体质量强化管理干预,持续干预3个月后,比较两组患者人体成分指标、血脂与糖代谢指标水平及自我管理能力变化。结果干预后,研究组内脏脂肪面积(VFA)、体脂率(PBF)、体脂量(BFM)、骨骼肌肉量(SMM)及身体质量指数(BMI)均较对照组低,差异有统计学意义(P<0.05);干预后,研究组高密度脂蛋白胆固醇(HDL-C)水平较对照组高,低密度脂蛋白胆固醇(LDL-C)、三酰甘油(TG)及总胆固醇(TC)水平均较对照组低,差异有统计学意义(P<0.05);干预后,研究组空腹血糖(FPG)、餐后2 h血糖(2 hPG)、空腹胰岛素(FINS)与餐后2 h胰岛素(2 hINS)水平均较对照组低,差异有统计学意义(P<0.05);干预后,研究组慢性病患者自我管理行为量表(CDSMS)总分较对照组高,差异有统计学意义(P<0.05)。结论基于互联网的团队式体质量强化管理干预有助于调节糖脂代谢,提高患者自我管理能力,从而提高减重效果。

华南型黄瓜相关性状的遗传效应分析

为研究华南型黄瓜自交系及其F1代的遗传效应,以华南型黄瓜4个自交系为父本,5个自交系为母本,采用NCII试验设计配制20个杂交组合,对9个农艺性状、产量和品质指标进行杂种优势分析、相关性分析、配合力分析和遗传力参数分析。杂种优势分析表明,叶面积和产量正向超亲、中亲优势占比60%~100%;相关性分析表明,叶面积与产量呈极显著正相关。特殊配合力分析表明,F1代中09-2-CD×P107、09-2-CD×Gy08、C20×Quanlü在产量中有明显优势,Qc19×Quanlü、LC68×Gy08、LC68×Quanlü、Qc19×138-LC在品质和产量中具有一定优势。一般配合力分析表明,P107可作为总糖含量和产量较高的父本,C20可作为高维生素C含量和高产母本,09-2-CD可作为株高较低和高产母本。遗传力参数分析表明,华南型黄瓜纵径、横径、维生素C含量、单果质量的狭义遗传力和广义遗传力均超过60%,说明这些性状具有较好的遗传稳定性。

西沙群岛两种寄居蟹对定居螺壳的选择偏好的研究

为研究寄居蟹在选择定居螺壳时的行为和相关因素,采集了西沙潮间带区域的81个腹足纲动物空壳和72只寄居蟹样本,对两种寄居蟹和金口蝾螺螺壳的形态学参数进行测量和统计学分析,获得如下结果:在环境中螺壳种类和数量相对丰富时,畸形真寄居蟹和光螯硬壳寄居蟹均偏好选择蝾螺科物种的螺壳定居,特别是金口蝾螺的螺壳更易成为两种寄居蟹的定居场所。形态参数的统计显示两者在选择定居螺壳时,在壳重、壳长、壳宽、壳高、壳口长和壳口宽等方面存在显著差异。标准化数据表明,两种寄居蟹在螺壳体型选择上存在差异,畸形真寄居蟹以头胸甲长与其选择螺壳的壳长的比值为主要参考,而光螯硬壳寄居蟹以鳌足宽度与螺壳的壳宽、壳高、壳口长等比值为主要考虑因素。

基于神经、认知及肢体功能的高频rTMS联合量化康复训练治疗脑梗死后姿势控制障碍患者效果

目的 探究高频重复经颅磁刺激(rTMS)联合量化康复训练在脑梗死后姿势控制障碍患者中的应用价值。方法 选取2020年1月—2023年1月接受治疗的脑梗死后姿势控制障碍120例,采用随机数字表法随机将其分为3组各40例,观察组采用高频rTMS联合量化康复训练,对照1组给予高频rTMS治疗,对照2组采取量化康复训练。观察3组干预后临床效果,干预前后神经及认知功能[美国国立卫生研究院卒中量表(NIHSS)、简易智能状态检查量表(MMSE)、蒙特利尔认知评估量表(MoCA)评分]、上下肢运动功能及平衡功能[上下肢Fugl-Meyer功能评分量表(FMA)、卒中患者姿势控制量表(PASS)、Brunel平衡量表(BBS)评分]、步态运动参数、表面肌电图均方根值(RMS)、脑卒中专门生活质量评估量表(SS-QOL)评分。结果 干预后,观察组总有效率(92.50%,37/40)高于对照1组(72.50%,29/40)和对照2组(70.00%,28/40)(P<0.05)。干预后,观察组NIHSS评分<对照1组<对照2组,MMSE、MoCA评分>对照1组>对照2组;观察组上下肢FMA、PASS、BBS评分及步频、步速、跨步长比率均较对照1组和对照2组高;观察组肱二头肌屈肘和肱三头肌屈伸肘表面肌电图RMS高于对照1组和对照2组;观察组SS-QOL各项评分均较对照1组和对照2组高(P<0.05)。结论 rTMS联合量化康复训练可提高脑梗死后姿势控制障碍患者临床疗效,改善肢体功能与躯体平衡能力,促进神经功能与认知恢复,且可改善肌张力与步态参数,提升生活质量。

分析家属联动下5E康复护理与正念音乐干预对高血压脑出血伴睡眠障碍患者睡眠质量的影响

目的:探究家属联动模式下5E康复护理联合正念音乐助眠干预对高血压脑出血(HICH)伴睡眠障碍患者的影响效果。方法:选取2021年3月至2022年8月中国人民解放军联勤保障部队第910医院收治的HICH伴睡眠障碍患者74例作为研究对象,按照随机数字表法分为对照组和观察组,每组37例。对照组给予常规护理干预,观察组在对照组的基础上给予家属联动模式下5E康复护理联合正念音乐助眠干预,均干预4个月。采用心理弹性量表(CD-RISC)比较2组患者的心理状态,采用睡眠质量指数量表(RCSQ)比较2组患者干预前后睡眠质量的变化,采用多导睡眠监测仪监测2组睡眠效率(SE)、睡眠潜伏期(SOL)、总睡眠时间(TST)、夜间觉醒次数(NWAK),采用高血压患者自我管理行为量表(HPSMBRS)比较2组患者干预前后高血压控制情况。结果:干预4个月后,2组患者CD-RISC评分、SE、TST均较干预前高,且观察组显著高于对照组,差异均有统计学意义(均P<0.05);干预4个月后,2组患者RCSQ评分、HPSMBRS、SOL、NWAK评分均低于干预前,且观察组显著低于对照组,差异均有统计学意义(均P<0.05)。结论:家属联动模式下5E康复护理联合正念音乐助眠可改善HICH患者心理状态,提升睡眠质量,增强患者的自我管理能力,值得临床推广应用。

镀铝锌锌花不均缺陷分析及控制措施

针对镀铝锌钢板在生产过程中出现锌花不均缺陷问题进行分析,通过调整纠正辊不同位置的参数、优化冷却塔张力控制、探索特定牌号低温退火工艺及改进6号纠偏辊纠偏能力和热卷厚度等措施,成功找出了改善锌花均匀性的有效方法。研究结果表明,影响镀铝锌锌花均匀性的主要因素包括纠偏能力、沉没辊参数设置以及退火温度控制等。在实际生产过程中,通过系统地排查和试验,不仅揭示了锌花不均缺陷的成因,而且提出了切实可行的解决方案。

齿轮箱传动系统渐开线花键的优化研究

随着风电机组齿轮箱扭矩密度的提升,行星传动装置中渐开线平齿根花键已经满足不了目前齿轮箱轻量化设计的需求。针对这一问题,提出了一种将齿轮箱内部传统的渐开线平齿根花键优化为渐开线齿形花键的方法。首先,优化了渐开线齿形花键的齿廓变位系数、齿根高及齿顶高变位系数等,提高了花键的传扭能力;然后,研究了渐开线齿形花键结构,调整了其齿厚公差,使太阳轮可以正常浮动,以补偿齿轮啮合的对中偏差,降低了不均载系数,提高了齿轮箱内部齿轮的承载能力;分析了花键齿面载荷分布,对花键进行了齿向修鼓和螺旋角修形,改善了花键齿宽载荷分布,避免了花键轮齿端部受载过高,延长了花键联接的使用寿命;最后,使用工程算法,校核了花键抗剪切、抗磨损及花键连接本体强度等;通过齿轮箱相关试验,分析了齿轮箱拆检后花键齿面啮合情况,验证了渐开线齿形花键的扭矩传递能力。研究结果表明:采用渐开线齿形花键,通过优化其参数,可以提高花键的齿面接触强度,花键的扭矩传递能力提高了约10%,齿形花键的扭矩传递能力得到了实例验证。

地聚物混凝土的可喷射性试验研究

地聚物混凝土(Geopolymer concrete,GPC)是以碱激发地聚物材料替代水泥作为胶凝材料配制而成的一种生态环保建筑材料,GPC较普通水泥基混凝土具有早期强度高的特点,适用于喷射混凝土结构。本文针对GPC开展可喷射性试验研究,建立了喷射GPC的泵送喷射模拟分析模型,计算分析两种强度喷射GPC屈服应力与黏滞系数等流变力学参数。通过试验对模型进行验证,并分析GPC坍落度与极限建造厚度、漏浆率等关系。研究结果表明,高强GPC具有更优越的可喷射性,相同极限喷射建造厚度下,屈服应力与黏滞系数较普通GPC更低,更有利于泵送。最后提出了喷射GPC施工参数的优选原则,为开发高性能喷射GPC结构提供理论依据和技术支撑。

陶瓷厚度与基牙底色对4种常用CAD/CAM瓷修复体颜色的影响

目的研究4种不同厚度和半透明度CAD/CAM陶瓷在不同基牙底色上的遮色效果,为临床的陶瓷材料选择提供参考。方法4种CAD/CAM陶瓷分别是:IPS e.max CAD(硅酸锂玻璃),VITA SUPRINITY PC(氧化锆增强玻璃),VITABLOCS MarkⅡ(长石基玻璃)和Vita Enamic(聚合物渗透陶瓷),制作成不同厚度(1 mm、1.5 mm、2 mm)的瓷块试样,在7种基牙底色(A1、A2、ND7色调复合树脂、白色(White)、黑色(Black)、钴铬合金(CC)、贵金属合金(PMA)下使用分光光度计检测Lab值,同一种瓷块2 mm厚度在A2色上的表现作为对照组,横向比较各种瓷块在不同基牙底色上的色差值以及半透明度。结果ΔL、Δa、Δb值随着陶瓷厚度的增加逐渐减小,且在4种陶瓷间存在明显差异;半透明性参数均值按半透明度递减顺序依次为长石基玻璃>硅酸锂玻璃>氧化锆增强玻璃>聚合物渗透陶瓷;其中半透明度越大,其陶瓷的遮色效果反而越差;当厚度达到2 mm时,4种陶瓷在各种基牙底色下的ΔE(临床可接受颜色阈值)均<3.7;4种陶瓷中ΔE与厚度呈线性负相关,ΔE与TP值线性正相关。结论陶瓷厚度、基牙底色和陶瓷种类影响CAD/CAM瓷修复体的颜色,4种陶瓷中,聚合物渗透陶瓷的半透明度最小,遮色能力最强,长石基玻璃的半透明度最大,遮色效果最差。

10个高粱自交系及其杂交组合配合力和遗传力分析

以6个高粱不育系为母本,4个高粱恢复系为父本,按照NC-Ⅱ不完全双列杂交组配24个杂交组合,对高粱自交系及杂交组合的主要农艺性状进行配合力、杂种优势及遗传参数进行分析。结果表明,除产量和糖锤度外,其余10个农艺性状受加性遗传和非加性遗传共同作用,但非加性遗传作用比较突出,容易受环境及栽培条件的影响,不宜在早代进行选择。全部自交系中,A 1整体性状优良,具有很大的利用潜力。组合A 6×B 3在茎粗、主穗长度、千粒重和糖锤度上SCA效应值最大,可用于选育抗倒伏和高产品种。在所有组合中,超亲优势主要体现在高粱生育期性状和穗部性状上,适宜选育晚熟型高产品种。高粱是杂种优势利用的典型作物之一,在选择高粱杂交亲本时,要综合考虑亲本GCA和组合间SCA对杂交后代的影响,在高GCA亲本的基础上选择SCA高的杂交组合,会大大提高优势杂交组合出现的概率,加快高粱种质资源的创新步伐。

基于足底压力对人体平衡能力的定量评估研究进展

目的探索足底压力对人体平衡能力的定量评估研究,寻求行之有效、简单易行、可靠性高的描述人体平衡能力的参数指标。方法基于疾病平衡障碍患者的康复与评估、不同生理状态、不同体育运动,对平衡能力的定量评估研究进行综述。结果梳理得出基于足底压力对人体平衡能力的定量评估研究中参数指标的不同情形,总结并提出了两组参数指标,一是动力学参数指标,二是运动学参数指标,用以定量评估平衡能力。结论基于足底压力的定量评估参数指标在大多数情况下能对人体平衡能力的评价提供依据,从而通过锻炼、治疗等手段进一步改善人体平衡能力,减少人体跌倒损伤风险,并有望为足底压力平衡量化分析和相关医疗器械研制提供一定帮助。

基于觅食能力分配搜索任务的侏儒猫鼬优化算法

针对侏儒猫鼬优化算法存在的不足,提出一种基于觅食能力分配搜索任务的侏儒猫鼬优化算法。首先采用tent混沌自适应步长平衡全局搜索与局部开发;针对alpha组搜索盲目性问题,优化其移动方向及移动能力;针对侦察组算法移动方向存在误导性问题,增强其个体纠错能力,从而提升个体觅食能力;改进保姆组移动算法,提升种群的局部开发能力;最后提出一种新的种群觅食策略,平衡各算法之间调用策略,提升算法整体性能。通过解决12个基准测试函数与支持向量机的参数优化问题,对该文算法性能进行数值实验验证。实验结果表明FADMO的全局收敛精度与全局收敛速度均有明显提高,并适用于实际问题求解。