永磁同步电主轴在CKE6150D数控机床中的应用

分析了经济型数控车床主轴应用现状,在CKE6150D数控车床中引入了永磁同步电主轴,永磁同步电机的转子直接驱动数控车床的主轴,采用先进的永磁同步无感矢量控制变频器驱动电主轴。经过大量实验证明,采用永磁同步电主轴显著提高车床的加工精度,同时减小了机床的振动和噪音。并且该技术方案具有结构简单,维护方便等优点,显著提高企业的经济效益。

稻曲病菌(Ustilaginoidea Virens(Cke.)Tak)厚垣孢子球形成和厚垣孢子萌发及产孢规律的研究

稻曲病菌厚垣孢子球发育形成过程可划分为颖内扩展期、开颖期和稻曲形成期三个阶段。所形成的稻曲孢子球表面的厚垣孢子色泽和萌发产生小孢子的方式有三种基本类型:1、桔黄色厚垣孢子最易萌发,萌发率高达80％。萌发时产生短而细,直而不分枝,无分隔的芽管。芽管上部着生1—3个小孢子。2、黄色厚垣孢子萌发速度较慢,萌发率30—40％。萌发时先形成一粗壮的芽管,后芽管延长并分枝分隔形成菌丝状,分枝向顶部渐细,上生数个小孢子。3、墨绿色厚垣孢子经湿皿法处理15天左右,可打破休眠期促使萌发产孢。其萌发速度最慢,萌发牢约20％。萌发时产生一个直而粗壮的从基部向顶部渐细,多不分枝偶有分隔的芽管,芽管顶部着生一个小孢子。

瑞士苏黎世Hardbrücke车站更新

Hardbrücke车站位于瑞士的苏黎世,用于Hardbrücke火车站的更新费用约为3350000瑞士法郎,总建筑面积5650m2.建筑师试图以选择性的干预手段赋予车站一种新的身份,使人们能够很容易地找到车站所在的方位,同时增加车站站前空间的吸引力.

DIE BRCKE

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Zn含量对Mg-10Gd-6Y-xZn-0．6Zr合金显微组织、力学和阻尼性能的影响

采用扫描电子显微镜、能谱分析仪、X射线衍射仪和动态机械热分析仪等研究Zn含量对Mg-10Gd-6Y-xZn-0.6Zr(x=0.6,1.6,2.6,3.6,质量分数,%)合金显微组织、力学和阻尼性能的影响。结果表明:铸态下,Mg-10Gd-6Y-0.6Zn-0.6Zr合金中第二相主要为Mg5(Gd,Y,Zn),在Mg基体中,由晶界处向晶内平行生长出大量层状相;随Zn含量的增加,Mg5(Gd,Y,Zn)相减少,Mg12Zn(Y,Gd)相增多;当Zn含量达到3.6%时,第二相主要以Mg12Zn(Y,Gd)相存在,Mg基体中的层状相几乎消失。对于挤压态的Mg-10Gd-6Y-1.6Zn-0.6Zr合金,其基体中呈现大量扭曲的层状相,合金抗拉强度达到400 MPa,随着Zn含量的增加,合金强度呈下降趋势,但塑性得到改善。铸态合金的阻尼性能随Zn含量的增加先下降后上升,采用Granato-Lücke(G-L)理论和G-L图对合金阻尼性能进行了分析和讨论。

八种药剂对水稻稻曲病的防效和增产作用

对8种药剂对稻曲病[病原菌为Ustilaginoidea virens(Cke)Tak]的防治效果和增产作用进行了试验。结果表明,在水稻破口前和齐穗期两次喷药,30%苯甲.丙环唑乳油、43%戊唑醇悬浮剂、井冈霉素A 2%.蜡样芽孢杆菌(Bacillus cereus)1×108CFU/g水剂、20%井冈.咪鲜胺可湿性粉剂对稻曲病的防效较好,防效在81.64%以上,60%吡唑醚菌酯.代森联水分散粒剂和0.5%氨基寡糖素水剂防效较差。8种药剂对水稻均有不同程度的增产作用,增幅为3.84%～8.88%。

热处理对AZ61镁合金力学性能和阻尼性能的影响

采用金相分析、拉伸实验、动态机械热分析等方法研究了时效处理(T5)、固溶处理(T4)及固溶后时效处理(T6)三种不同热处理工艺对挤压态AZ61镁合金显微组织、力学性能及阻尼性能的影响。研究表明:与挤压态的AZ61镁合金相比,T5态与T6态的强度明显提高,且T6态仍保持了一定的塑性;T4态虽未提高其强度,但提升了合金的伸长率。而在阻尼性能方面,挤压态和T5态的阻尼性能较差,T4态和T6态与应变相关部分的阻尼得到了大幅度提升。通过Granato-Lücke理论可以很好的解释不同热处理工艺对AZ61镁合金阻尼性能的影响规律。

稻曲病病原菌生物学特性研究

对稻曲病病原菌生物学特性的研究结果表明,稻曲病菌生长的最佳碳源为蔗糖,最适碳源浓度为2%～3%,黑暗条件、pH4.0～8.0、完全培养基有利于稻曲病菌生长,稻曲病粒浸出液能影响水稻种子的萌发。

一种复合植物源杀菌剂及其活性研究

研究一种复合植物源杀菌剂及其对番茄叶霉病菌的抑制效果。用万寿菊根和厚朴植物的提取物来配制15%农药乳油制剂,对它的稳定性进行了分析,并用乳油对番茄叶霉病原菌进行了毒力测试。15%农药乳油在2~40mg/mL的浓度范围内对番茄叶霉病菌的抑制率为8.2%~80.3%,其抑制中浓度（EC50）为12.02mg/mL。该研究为利用万寿菊和厚朴植物研制新型生物农药提供了科学依据。

Effects of Y content and temperature on the damping capacity of extruded Mg-Y sheets

The damping behavior of extruded Mg-xY(x=0.5,1.0,3.0 wt.%)sheets were investigated in detail concerning the effects of Y addition and temperature,and the relationship between damping capacity and yield strength was discussed.At room temperature(RT),with Y content increasing from 0.5%to 3.0%,the damping capacity(Q-1)significantly decreased from 0.037 to 0.015.For all the studied sheets,the relationship between strain amplitude and Q-1 fitted well with the Granato and Liicke(G-L)dislocation damping model.With temperature increased,the G-L plots deviated from linearity indicating that the dislocation damping was not the only dominate mechanism,and the grain boundary sliding(GBS)could contribute to damping capacity.Consequently,the Q-1 increased remarkably above the critical temperature,and the critical temperature increased significantly from 50℃ to 290℃ with increasing Y contents from 0 to 3.0wt.%.This result implied that the segregation of Y solutes at grain boundary could depress the GBS,which was consistent with the recent finding of segregation tendency for rare-earth solutes.The extruded Mg-IY sheet exhibited slightly higher yield strength(Rp0.2)and Q-1 comparing with high-damping Mg-0.6Zr at RT.At an elevated temperature of 325℃,the Mg-IY sheet had similar Q-1 but over 3 times larger Rp0.2 than that of the pure Mg.The present study indicated that the extruded Mg-Y based alloys exhibited promising potential for developing high-performance damping alloys,especially for the elevated-temperature application.

Solid solution strengthening and damping capacity of Mg-Ga binary alloys

The mechanical behaviors and damping capacities of the binary Mg−Ga alloys with the Ga content ranging from 1 to 5 wt.%were investigated by means of optical microscope(OM),scanning electron microscope(SEM),X-ray diffraction(XRD),hardness test,tensile test and dynamic mechanical analyzer(DMA).The hardness(HV_(0.5))increases with the increase of Ga content,which can be described as HV_(0.5)=41.61+10.35c,and the solid solution strengthening effect∆σ_(s)of the alloy has a linear relationship with c^(n),where c is the molar fraction of solute atoms and n=1/2 or 2/3.Ga exhibits a stronger solid solution strengthening effect than Al,Zn or Sn due to the large atomic radius difference and the modulus mismatch between Ga and Mg atoms.The addition of Ga makes the Mg−Ga alloys have better damping capacity,and this phenomenon can be explained by the Granato−Lücke dislocation model.The lattice distortion and the modulus mismatch generated because of the addition of Ga increase the resistance to motion of the dislocation in the process of swinging or moving,and thus the better damping capacity is acquired.

基于压电波动测量的竹梁界面剥离监测试验

作为天然绿色材料胶合竹材在建筑和土木工程上的应用引起广泛关注,对外荷载作用下竹结构的状态进行监测具有重要应用价值。该文对一竹梁构件模型进行分级加载直至破坏,基于压电应力波传播与测量对其各受力状态下的状态进行监测。通过对比不同荷载等级时简谐激励信号下压电传感器的测量信号的幅值和扫频激励下小波包能量的差异,定义相应的损伤指标,实现了对竹梁构件在加载过程中损伤状态的有效监测。

Effects of Y on mechanical properties and damping capacity of ZK60 magnesium alloys

The microstructure,mechanical properties and damping capacity of ZK60-xY(x=0,1.5%,2.5%,4.0%,mass fraction) magnesium alloys were investigated by using the optical microscope(OM),X-ray diffractometer(XRD),universal tensile testing machine and dynamic mechanical analyzer(DMA).The mechanisms for damping capacity of referred alloys were discussed by Granato-Lücke theory.The results show that Y additions remarkably reduce grain size(the average grain size is 21.6,13.0,8.6 and 4.0μm,respectively),and the tensile properties are enhanced with grain refining(the yield tensile strength increases to 292 MPa from 210 MPa and ultimate tensile strength increases to 330 MPa from 315 MPa).For the ZK60-xY(x=0,1.5%,4.0%)alloys,the damping capacity decreases with the increase of Y content.However,for the ZK60-xY(x=2.5%)alloy,the damping capacity improves abnormally,which is possibly related to the formation of Mg3Y2Zn3(W)FCC phase in this alloy.

稻绿核菌中绿色素的提取及其应用

稻绿核菌〔Ｕｓｔｉｌａｇｉｎｏｉｄｅａｖｉｒｅｎｓ(Ｃｋｅ.)Ｔａｋ.〕又名稻曲拟黑粉菌[1],其子实体即为中药的粳谷奴,治走马喉痹[2],ＳｈｉｂａｔａＳ.报道稻绿核含有稻核黑粉菌素(ｕｓｔｉｌａｇｉｎｏｉｄｉｎｓ)[3]。ＹａｂｕｔａＴ.ａｎｄＳｕｍｉｋｉＹ.检测证?..

肉色迷孔菌深层发酵培养条件的探究

从肉色迷孔菌子实体中分离纯化菌种,在正交试验确定出液体深层发酵最适培养基的基础上,分别进行接种量、温度、p H、发酵液装瓶量、摇床转动速率的单因素试验,试验结果表明,肉色迷孔菌摇瓶液体培养的最适培养条件分别为接种量10%、温度30℃、p H值6、发酵液装瓶量150m L/500m L、摇床转速80r/min。

棕竹灰斑病病原菌生物学特性及化学防治研究

[目的]研究棕竹灰斑病菌[Pestalotiopsis palmarum(Cke.)Stey.]的生物学特性并对其杀菌剂进行筛选。[方法]采集具有典型症状的病害标本,根据柯赫氏法则分离病原物和病原菌纯化后进行病原菌鉴定及生物学特性测定。同时,测定了4种供试杀菌剂在3种不同浓度下对病原菌的抑菌作用。[结果]菌丝生长最适温度、pH、碳源、氮源分别为25℃、pH 6、葡萄糖、硝酸钾;黑暗条件有利于菌丝的生长,而光照条件则有利于孢子的产生。供试药剂中以70%甲基托布津和50%使百功防效最为明显,分别在2 000和500μg/m l时防效高达100%。[结论]为棕竹灰斑病的防治提供了理论依据。

银果等6种生物农药对番茄叶霉病的防治效果

经室内测试和田间试验,春雷霉素、多抗霉素、武夷菌素、百里香、菇卫士、银果与常用化学农药甲基托布津、代森锰锌一样,对叶霉病病菌有较强的抑制作用,田间防治效果明显。

稻曲病病原菌分离技术及培养条件初步研究

在PSA培养基上 ,利用稻曲病菌菌核分离培养了稻曲病菌。研究结果表明 ,稻曲病菌生长的最佳碳源为蔗糖 ,最适蔗糖浓度为 2 % 3% ,最适温度为 2 5℃ 。