共搜索到18618条信息,每页显示10条信息,共1862页。用时:0小时0分1秒17毫秒
alloy moulds (120 mm×20 mm×20 mm) and cylindrical moulds (Φ20 mm×20mm). Subsequently, they were placed in an electric blast dryer and dried at 60 °C for 48 h. After drying, they were demoulded and baked... in P-O-Si linkages, whereas an absorption band near 1020 cm-1 is assigned to Si-O stretching vibration in P-O-Si linkages [42, 43]. This means that when the sintering temperature is higher than 600 °C......
对每个区域采用不同能量进行冲击试验,如图5所示.在对冲击后的试件采用超声C扫描进行检测时发现:当冲击能量不高时,冲击后的试样表面虽然没有明显损伤,但内部已经出现了基体开裂与分层现象;随着冲击能量的提高,层合板的内部损伤进一步而扩大;直至冲击能量高于渗漏阈值时,层合板出现渗漏.对于产生渗漏现象的试样,其内部虽然没有出现明显的纤维损伤,但树脂基体开裂与分层损伤已相互连通,形成了贯穿试样厚度方向的渗漏通... A, GUZMAN J C, DILLON A K, et al. Design, manufacture and test of cryotank components[J]. Materials Science and Materials Engineering, 2018, 3: 153-179. [5] SIPPEL M, KOPP A, MATTSSON D, et al. Final......
and improves the adsorption performance of fluoride. Also, the diacetylene linkages (-C≡C-) and pyridinic-N were studied to understand their influences on removing fluoride. The result indicates that carbon..., and reacted in an electric blast drying oven at 220 °C, and cooled at room temperature to obtain a pure white product. The product was then washed repeatedly 6 times with ultra-pure water and anhydrous......
and lubrication-film pressure. The following film-thickness equation was presented in Ref. [29]: (24) where c is the radius clearance of the external return spherical hinge pair, c=RM-R, 2.5 Dimensional normalization Dimensionless parameters: (25......
层的强度极限时,铝层开始颈缩并产生裂纹,同时界面裂纹沿拉伸方向迅速扩展,随后IF钢单独伸长变形直至断裂.王传杰等[12]研究了Cu/Ni复合箔的界面变形行为,基体层间的力学性能差异导致Cu/Ni界面的微孔缺陷处最先萌生裂纹,当界面裂纹大量合并和纵向扩展时,基体层开始发生颈缩和断裂.皇涛等[13]通过扫描电镜表征研究了钛/铝复合板原位拉伸加载过程的损伤演化行为,裂纹在复合界面区的金属间化合物层中萌生...过拉伸试验分析应变速率对复合板力学性能的影响,基于断口分析探讨复合界面在拉伸过程的组织演变规律,研究钢/铝层状复合板的断裂失效机理. 1 实验 实验原材料为Q235冷轧钢板和A1100纯铝板,厚度分别为1.0 mm,0.4 mm,用剪床裁成长度100 mm,宽度30 mm的条状试样.Q235钢的主要化学成分(质量分数,%)为C 0.16,Mn 0.50,Si 0.30,S 0.04,P......
[C]//LORIA E A ed. Superalloy 718: Metallurgy and Applications. Warrendale, PA : TMS, 1989: 279-296. [2] ZHOU Yu, YE Hao-yu, RAO Si-xian. An investigation of the microstructural evolution of a service...孔洞缺陷则会导致更高的材料屈服应变,但是,该研究没有考虑裂纹和空洞的耦合作用对损伤的影响.JIANG等[9]从微观角度研究了孔洞密度对镍单晶孔洞变形的位错机理影响,结果表明增加孔洞密度可以促进镍单晶的屈服.LIANG等[10]研究了镍基单晶Ni,Ni3Al,Ni/Ni3Al界面孔洞在拉伸作用下的变形机理和孔洞的尺寸效应影响,结果发现在Ni和Ni3Al模型中,a/6[112]肖克莱不全位错首先在孔洞......
J. Cent. South Univ. (2020) 27: 629-673 DOI: https://doi.org/10.1007/s11771-020-4322-1 Decision making tools for optimal material selection: A review Divya ZINDANI, Saikat Ranjan MAITY, Sumit BHOWMIK Department of Mechanical Engineering, National Institute of Technology Silchar, Silchar,Assam-7880......
μm的SiC/Si混合粉体,制备了固相体积分数为70%的高浓悬浮液,所得坯体强度高达55.4 MPa;采用固相体积分数为75%的重结晶SiC 浓悬浮液制备的SiC 坯体强度为39 MPa左右;制备了固相体积分数高达63%的氧化锆浓悬浮液,并浇注出形状复杂,密度均匀的氧化锆陶瓷坯体,其体密度为4.12 g/cm3,抗弯强度为21.43 MPa. 茹红强等[44]研究了毫米级大颗粒耐火材料的凝胶注模成... for aqueous gelcasting alloy Ni-362-3 STAMPFL等[65]将MoldSDM(Mold shape deposition manufacturing)模具制造工艺与凝胶注模成型技术相结合,在快速分层制备的腊模内通过浇注高固相体积分数的金属粉末料浆,成功制备出形状复杂的不锈钢叶轮,烧结后该叶轮的微观结构及力学性能优良,可与传统粉末冶金工艺制件媲美.图......
改进型铝化物涂层,如Al-Cr,Al-Si,Al-Ti,Pt-Al,其中以镀Pt渗Al形成的铂铝化物涂层具有更长的使用寿命而倍受欢迎,进而成为研究的热点,至今仍有相关报道. 以上两代涂层均属于扩散涂层, 这些涂层在航空发动机上得到了一定的应用[4-5] . 第3代涂层,20世纪80年代发展了可以调整涂层成分,能在更高温度下起到高温抗氧化作用的等离子体喷涂MCrAlY涂层(M代表Fe,Co,Ni... and disadvantages of ceramic materials used as TBC 2.2 氧化锆的基本物理化学性质 氧化锆是一种耐高温的氧化物,熔点是2 680 ℃,热导率是14 W/(K?m), 线膨胀系数是11×10-6~13×10-6 K-1,弹性模量是190 GPa.ZrO2的晶型有3种,即单斜(m),四方(t)和立方(c).常温条件下,稳定相为单斜晶......
, 27(2): 282-288. SHEN Ding, YANG Shao-bin, LI Si-nan, SUN Wen, TANG Shu-wei. Calculation and prediction of lithium insertion properties and elastic properties for Sn-Li alloy based on first-principle...解多硫化物的溶解及扩散,减少活性材料的损失.目前掺杂碳质材料方式:单元素(以氮为主),双元素掺杂及多元素掺杂,主要分析改性后碳质材料与多硫化物的相互作用. 通过单元素掺杂改性碳基底变为极性材料,PENG等[27]利用密度泛函理论(DFT)研究掺杂元素的纳米碳基底(CNTs,OCNTs,NCNTs)与多硫化锂的相互作用,发现同主客体之间(掺杂N的C/S界面)相互作用增强,掺杂O,N元素后碳基底与多硫......
