粘结强度

  • 网络Bonding strength;Bond strength;adhesion;cohesive strength;kPa
粘结强度粘结强度
  1. C配方陶瓷偶联剂在瓷与树脂之间产生的粘结强度最高,用于烤瓷或全瓷表面处理均有良好效果。

    Type C silane coupling agent can generate the highest shear bond strength between different porcelains and composite resin .

  2. Er,Cr:YSGG激光照射对牙本质和玻璃离子水门汀抗剪粘结强度的影响

    Effects of Er , Cr : YSGG Laser Irradiation on Shear Bond Strength between Dentin and GICs

  3. 讨论了影响PVC钢板粘结强度的有关因素。

    The influences of factors concerned on the sticking strength of PVC laminated steel sheet were discussed .

  4. 镀Ti金刚石与铜合金的粘结强度可达8×10~7Pa。

    Bond strength between clad diamond and copper alloy remains at the level of 8 × 10 ~ 7Pa .

  5. CC计算法与界面粘结强度计算法的差异与探讨

    The difference of CC-method and bonded strength method

  6. 自制金属底座与VITAMARKⅡ瓷块粘结强度的研究

    Study on Bonding Strength Between Self-made Metal Stub and Vita Mark ⅱ Ceramic Block

  7. 结论Glumacomfortbond和singlebond分别在两种建模方式下进行比较,两种粘结剂粘结强度的差异无显著性意义。

    Conclusion In two different models the bonding strength has no significant difference between Gluma comfort bond and Single bond .

  8. 不同试验方法对GFRP筋粘结强度的影响研究

    Study on influence of different test methods on bond strength of GFRP rebars

  9. 新老混凝土粘结强度SVR模拟预测研究

    SVR Simulation & Prediction Research on New and Old Concrete Adherence Strength

  10. 生成的亲水极性基团极大地增强了PI薄膜表面的亲水性,从而增大了薄膜表面与铜膜间的粘结强度。

    The surface hydrophilicity had been strengthened greatly by the formation of polar hydrophilic groups , and the adhesion strength was increased accordingly .

  11. 结论:纯钛铸件用酸蚀法处理后可以获得较高的粘结强度,HF酸浓度以4%为宜。

    Conclusion : It demonstrated that etching with 4.0 % HF can effectively increase bond strength of polymer-glass composite to pure titanium .

  12. 研究结果表明:随着AL、SI或表面涂层厚度的增加,表面涂层的粘结强度降低,通气管的渗碳层厚度减小;

    The results showed that the depth of the carburization layer and the bond strength decreased with the increasing of AL , SI or the thickness of the surface coating .

  13. FRP板的搭接长度、试件对中偏位、FRP板与混凝土块的宽度比等因素对粘结强度有显著影响,支座高度变化也有一定影响;

    The bond length , loading offset and FRP-to-concrete width ratio have significant effects on bond strength while the support height also has certain effect ;

  14. 土壤粘结强度由SiO2凝胶固化强度及土壤与SiO2凝胶形成的硅氧化学键结合强度构成。

    Total bonding strength was consisted of crosslinking strength of gel SiO_2 and silicon-oxygen bond strength which were formed by gel SiO_2 with soil .

  15. FRP筋与混凝土的粘结强度随着粘结长度和FRP筋直径的增大而减小,随着混凝土保护层厚度和混凝土强度的增大而增大。

    Bond strength between FRP bars and concrete decreases as anchorage length and diameter increases , and which increases as concrete strength and concrete cover thickness increases .

  16. 丁羟粘合剂的高熵弹性和与AP界面的高粘结强度是丁羟推进剂具有高伸长率的必要条件。

    The necessary conditions to possess high elongation for HTPB propellants are high entropy elasticity of HTPB binder and strong interface adhesion between HTPB binder and AP particles .

  17. 通过65个纤维增塑料(FRP)与混凝土试件的正拉粘结强度试验来研究自然条件下FRP与混凝土之间的粘结耐久性。

    The bond durability between fiber reinforced plastic ( FRP ) and concrete under natural conditions was studied by normal bonding strength experiment of65 FRP and concrete samples .

  18. 主要研究结果如下:(1)压电陶瓷(piezoelectricceramic,PZT)传感器粘结强度是影响其电阻抗信号的重要因素。

    The major conclusions are as follows : ( 1 ) The bonding condition of piezoelectric ceramic ( PZT ) sensor is an important factor which affects the electrical impedance signal obviously .

  19. 本文通过CFRP板双面剪切试验,对CFRP板与混凝土的粘结强度和CFRP板可行的锚固方式进行了探讨。

    Based on double-face shear tests of CFRP plates , this paper discusses the bond strength between CFRP plates and concrete and the feasible anchorage for CFRP plates .

  20. 结论:9.6%氢氟酸酸蚀20s能使IPS-Empress2陶瓷与树脂之间达到最大粘结强度。

    Conclusion : The bond strength between IPS-Empress 2 dental ceramic and resin can reach the maximum when etching for 20 seconds .

  21. 目的研究不同界面处理及不同粘结剂对自制金属底座与VITAMARK瓷块粘结强度的影响。

    Objective To study the effect of different surface treatments and different bonding agents on the bonding strength between self-made metal stub and Vita Mark ⅱ ceramic block .

  22. 研究显示加固板界面粘结强度比传统的外贴FRP高7.5倍,表明此方法既简单又高效。

    Researches showed that the interfacial bond strength of FRP in HB-FRP is about 7.5 times greater than which in EB-FRP , indicating that this method is simple and efficient .

  23. 结论Super-Bond粘结剂能够明显增强其对银汞合金的粘结强度,从而提高银汞合金充填体的固位力。

    Conclusion Super-Bond adhesive can greatly increase the adhesion intensity of amalgam restoration .

  24. 对复合材料断口观察表明,SiC颗粒与镁合金界面之间的粘结强度大于基体的撕裂强度,SiC颗粒的聚集、团聚是导致复合材料断裂的主要原因,且复合材料的断裂形式趋向脆性断裂。

    Examination of the fracture surface indicated that the bonding strength between SiC and matrix alloy was stronger than that of matrix . The SiC particles segregation is the main cause of the SiC P / AZ80 composite failure .

  25. 水下不分散混凝土(NDC)配合比及钢管-混凝土粘结强度试验研究

    Experimental study on bond strength of concrete filled steel tube and mix ratio of non-disperse underwater concrete in shengli oil field

  26. 未应用胶原酶抑制剂的对照组制备的微拉伸试件,经过6个月的水贮存老化后,粘结强度下降的程度更大,有统计学差异(p0.05)。

    The bond strength of the micro-tensile specimen in the control group without the application of collagenase inhibitor decreased with a higher degree compared with the experimental group after aging in water for 6 months , showing significant difference ( p0.05 ) .

  27. CFG桩由碎石、石屑、粉煤灰和水泥及水拌和,制成一种粘结强度较高的桩体,与桩间土和碎石褥垫层一起构成CFG桩复合地基。

    The CFG pile-foundation consists of the CFG piles made of mixing crushed stone , rock crumb , fly-ash , cement and water with higher binding strength and the cushion built with crushed tone .

  28. 本课题采用废EPS为主要原料,通过乳化、改性的方法,制备出了具有一定稳定性和粘结强度的EPS乳液铸造粘结剂,并对其制备工艺进行了深入的研究;

    In this paper , by taking EPS emulsion as main raw material , a new casting binder was developed with modification method . EPS water-borne property by modification is fine , and available for the casting binder .

  29. 研究了添加剂对银导电胶进行性能的影响:偶联剂(KH-550)的添加改善了导电胶的粘结强度;

    Lastly , the performance of Ag filled conductive adhesive was optimized through adding additives . KH-550 could improve the Viscosity of Ag filled conductive adhesive .

  30. 结果表明,对于泡沫SiC陶瓷骨架,在表面生长多孔过渡层或表面堆积SiC颗粒等方法可提高树脂陶瓷之间界面的粘结强度。

    The results show that interfacial cohesive stat ? between foam SiC ceramics and resin is better when the surface of foam SiC ceramics with porous transition layer or particles of SiC than that when the surface of foam SiC ceramics with whiskers or untreated .