剥离性能 meaning in Chinese
stripping quality
Examples
- Study on stripping performance of cotton leisure fabric
棉休闲服装面料剥离性能的研究 - The results show that small cr addition in steel can decrease the lamellar spacing of pearlite , and markedly increase strength and hardness with almost the same ductility and toughness , and accordingly improve wear and shelling - resistance of wheel steel
实验结果显示,加入微量的铬,可以细化珠光体的片层间距,在保持韧塑性基本不变的情况下,显著增加材料的强度和硬度,从而提高车轮钢的耐磨性和抗剥离性能。 - After mechanical and process properties testing , the results indicated that : ( 1 ) the film resin can make the properties good in climbing drum peer strength of sandwich constructions composite , the little effects of the film resin on other mechanical properties have been given ; ( 2 ) the sandwich composite has the better mechanical properties at central symmetry layer than asymmetric layer ; ( 3 ) through the study of the different pressure of the sandwich composite , the result is obtained that the edgewise properties increases , the flexural properties decreases with the pressure increase from 0 . 2mpa to 0 . 5mpa ; ( 4 ) at the sameness extend layer , the mechanical properties of the laminate is bigger than that of the honeycomb sandwich panel ; ( 5 ) through the studies on honeycomb sandwich plate delamination under three - point bending tests . it is found that the flexural strength decreases with the area of delamination increases
研究表明: ( 1 )胶膜能明显的提高蜂窝夹层结构的剥离性能,对其它性能的影响不大; ( 2 )对称铺层较非对称铺层的力学性能高; ( 3 )固化压力由0 . 3mpa提高至0 . 5mpa时,蜂窝夹层结构的侧压强度提高,而弯曲强度和剪切刚度分别降低; ( 4 )蜂窝夹层结构中的面板较同样材料铺层的复合材料叠层板的力学性能低; ( 5 )蜂窝夹层结构的界面上有缺陷时,弯曲强度下降,且随着缺陷面积增大,弯曲强度下降幅度增大。 - The membrane layer is formed by the vacuum forming technology . by controlling the weight and the ratio of long path of ceramics fiber , changing the operation factor reasonably of vacuum forming , we can obtain the ceramic fiber composite membrane layer , which has pore diameters of about 5 to about 30um , porosity i s 50 - 80 % , and tensile strength is about 4 . 1to 18 . 1mpa and thickness of membrane layer is 0 . 5 - 2 mm , has the good thermal shock resistance and peal off
膜层采用真空抽滤成型工艺,通过控制膜组分中陶瓷纤维长径比、纤维加入量、成型时料浆浓度、成型压力及成型时间等可以获得膜孔径5 ? 30 m 、气孔率50 ? 80 、抗折强度4 . 3 ? 18mpa 、膜层厚度0 . 5 ? 2mm 、具有良好热性能和耐剥离性能的陶瓷纤维复合微滤膜材料。