铝锆酸酯偶联剂对超微碳酸钙表面性能的影响--中国橡胶助剂网 关键词:偶联剂;超微碳酸钙;表面性能 [gap=1026]Keywords:Coupling Agent; Ultrafine Calcium Carbonate; Surface Characteristics
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Therefore, the laser cladding technology used to improve the surface properties of Light alloy with great research significance and application prospect.
因此采用激光熔覆技术提高轻合金表面性能具有深远的研究意义和应用价值。
参考来源 - 低熔点轻合金表面激光熔覆TiThe formulas to amend the Colburn factor j and friction factor f of plain fins were advanced. The results show that the effects of variable viscosity on surface performance of plain fins are more significant than those of serrated fins.
结果表明,由于液体黏度变化的影响,不同换热温差下翅片的表面性能不同,且平直翅片所受影响比锯齿翅片大得多。
参考来源 - 液体黏度变化对翅片表面性能影响的数值研究So improving the surface property of titanium and its alloys has become the hotspot in the study of titanium and its alloys.
如何改善钛及钛合金的表面性能,是钛及钛合金研究领域当前的热点。
参考来源 - 钛及钛合金离子氮化研究Soft nitriding process was used to further improve surface capability of the mould material, and good application result has been achieved.
利用气体软氮化工艺进一步提高了模具材料的表面性能,取得了良好的使用效果。
参考来源 - 铝合金活塞金属型铸造热作模具钢的试验研究Research of UV-cured Gel-Coating ResinGel-coating resin is used to improve surface properties of products.
河南大学硕士学位论文 2.紫外光固化胶衣树脂的研究 胶衣树脂用于制品的表面,提高其表面性能。
参考来源 - 紫外光固化不饱和聚酯树脂的合成及性能研究Recently, the study of modifying PU by silicon attracts abroad interest and attention of researchers. It is expected to improve the thermal stability, water resistance, surface property and dielectric property without substantially damaging PU mechanical properties.
近年来,用有机硅改性聚氨酯材料的研究引起了研究者的广泛兴趣,期望在不过度牺牲PU机械性能的情况下提高其热稳定性、耐水性、表面性能及介电性能等。
参考来源 - 聚硅氧烷/聚氨酯嵌段共聚物的制备、结构与性能及动力学研究Micro-appearance of explosive component affects its surface performance greatly.
炸药件表面形貌是影响其表面性能的重要因素。
参考来源 - 高聚物粘结炸药切削表面的细观形貌与形成机理·2,447,543篇论文数据,部分数据来源于NoteExpress
它们能在不改变表面尺寸的情况下改变表面性能。
They can alter the properties of surfaces without changing the dimension of the surface.
高能等离子体撞击材料表面,使表面性能发生了改变。
High energy plasma impacts the material sur - face and makes the surface performances modified.
色素炭黑通过氧化处理,改善其表面性能,拓宽应用领域。
The colour black is treated via oxidation to improve its surface properties and expand its applications.
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