可以认为颗粒与基体间弱界面的解聚是熔融石英颗粒复合材料韧化的原因。
The decohesion of the weak interface between particle and matrix may be considered as the origin of toughening.
综述了晶须增韧陶瓷基复合材料的强韧化机制。
The reinforcing and toughening mechanisms of whisker reinforcing ceramic matrix composites are reviewed in this paper.
韧化机制为细晶韧化、裂纹偏转、裂纹分支和微桥接。
Their toughening mechanisms were fine-grain toughening, crack deflection, crack branching and crack microbridging.
并指出PBT的增韧改性方向是实现PBT的强韧化。
It was also proposed that toughening modification of PBT was aimed at...
但不同的处理方法对高铬铸铁韧化所起的作用也是不同的。
But different treatments have different effects in toughening of high chromium cast iron.
复合材料中存在着晶须补强和相变增韧等双重强韧化机制。
Both phase transformation toughening and whisker reinforcing are existed in the composite system.
面团中还掺进了盐,因为盐可以调节发酵速率,韧化面筋,防止面包味道变淡。
Salt is included in the dough because it regulates the rate of fermentation, toughens the gluten, and prevents the bread from being insipid in taste.
通过对管线钢焊接粗晶区韧性影响因素的分析,提出了管线钢粗晶区的韧化方向。
Through the analysis of elements affecting the rough crystal zone in pipeline steel weld, it raises the flexing direction of rough crystal zone of pipeline steel.
同时,还从焊接粗晶区组织变化中找出了粗晶区性能变化的原因,并提出了韧化方向。
Meantime it finds out property change reason of coarse crystal area from welding coarse crystal area structure change and puts forward the direction of toughness.
并从陶瓷的晶体结构、陶瓷的成型与烧结、陶瓷的韧化等几个方面详细的介绍了陶瓷材料。
And from several forming crystal structure, ceramic and ceramic sintering, toughening, detailed introduction of the ceramic materials.
为了进一步改善陶瓷材料的性能使其增韧化、高强化,文章介绍了增韧陶瓷材料的设计开发现状及发展前景。
In order to further improve the properties of ceramic making it be toughened and reinforced, this paper introduces the design situation and developing prospects of toughened ceramic.
由于最佳的韧性都是来自铁素基体,所以所有美国尼伯科球墨铸铁都经过铁素体退火韧化过程处理。 收藏。
Optimum ductility is obtained with a ferritic matrix, so all NIBCO ductile iron is treated with a ferritizing annealing cycle.
分别从不同的方面对聚酰胺的高性能化进行了探讨,例如聚酰胺的增强、增韧、阻燃、防静电以及纳米尼龙等。
It discussed the property modifications of polyamide from different aspects, such as reinforcement, toughening, flame retardance and anti-static of polyamide, and nanometer nylon etc.
将数学上的均匀化方法与有限元法相结合,预测了颗粒增韧增强聚合物基复合材料的有效性能。
The finite element method is combined with homogenization theory based on asymptotic expansion for predicting effective properties of polymer matrix composites toughened and strengthened by particles.
金矿化受脆-韧性剪切带控制,并伴随着多期构造变形和多期矿化作用,金矿体就产于脆-韧型剪切带的中部;
The gold minerilization is controlled by brittle-tenacity shear belt and along with the action of multi-periodic structure distortion and multi-periodic minerilization.
用扫描电镜进行的冲击断面形貌分析表明,共混体的增韧机理以剪切屈服为主兼有多重银纹化。
It was found from the analysis of the impact cross section on SEM that the toughening mechanism was mainly the shear yielding with some degree of multiple crazings.
综述了环氧树脂的树脂合金化增韧改性,着重讨论了热塑性树脂、热致液晶聚合物和互穿网络结构等环氧树脂增韧改性新技术。
It reviewed epoxy toughened by resin alloy, and discussed several new technologies of toughening epoxy such as modified by thermoplastic resin, thermotropic liquid crystal polymer and IPN.
采用新型双官能化增韧剂swr—3c对尼龙(PA)6进行增韧研究。
The new dual-functional toughening agent SWR -3c was used to toughen nylon (PA) 6.
特别是通过聚烯烃弹性体、纳米级材料方法研制开发高韧性、高性能化PA6、A66 合金,是目前增韧PA6、PA66的主要研究方向。
Nowadays, it has been the main research hot point to exploit and research of ultratoughness and high-powered PA6, PA66 blends by adding polyolefin elastomer orusing nano-technology.
经层状化增韧,热固性基体复合材料的抗冲击损伤性能得到显著提高,同时原有的静态力学性能基本上没有受到影响。
Laminated-toughened TS matrix laminates showed remarkable enhancement in impact damage resistance, while their static mechanic properties were well kept.
研究了固化剂用量及丁腈羟用量对粘接性能的影响及这种增韧环氧树脂的玻璃化转变、动态力学性能和电性能,并对反应机理进行了初步探讨。
The effects of the amounts of curing agent and HTBN on the adhesive properties, as well as glass transition temperature, dynamic mechanical properties and electrical properties were investigated.
制备了一种以聚丙二醇增韧改性的环氧树脂为母体,接枝丙烯酸单体所形成主体树脂,经离子化反应得到阴极电泳涂料。
A cathodic electrodeposition coatings was prepared employing a polypropylene glycol toughness-enhanced epoxy resin as matrix and acrylic monomers as grafted copolymer.
制备了一种以聚丙二醇增韧改性的环氧树脂为母体,接枝丙烯酸单体所形成主体树脂,经离子化反应得到阴极电泳涂料。
A cathodic electrodeposition coatings was prepared employing a polypropylene glycol toughness-enhanced epoxy resin as matrix and acrylic monomers as grafted copolymer.
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