Theoretical Calculation Model of Single Rip Tearing Strength for the Nonwoven Composites

The nonwoven composites have sandwich structure, with the first and third layers being nonwovens and the middle layer of woven fabric. On the basis of tests of the single rip tearing strength and drawing out resistances of both the nonwoven composites and the woven fabric, the single rip tearing failure mechanism of the composites were analyzed. Then theoretical calculation model for the single rip tearing strength was established, which indicates that the breaking strength of warp and weft yams in the nonwoven composites, the density of warp and weft yarns and drawing out resistances are the main influencing factors. In the end, experimental verification was made, which shows that theoretical values conform to the measured values well.

纳米白炭黑补强TPU撕裂性能的研究

采用溶液共混法制备了TPU/SiO_(2)复合材料;探讨了纳米白炭黑用量及其表面特性对TPU/SiO_(2)撕裂强度及撕裂切口敏感性的影响。结果表明,与空白试样相比,白炭黑补强TPU撕裂性能显著提高,切口敏感性显著下降;在一定范围内,TPU/SiO_(2)撕裂性能及切口强度均随白炭黑粒子比表面积及用量的增大先升高后降低。与亲水型白炭黑相比,疏水性白炭黑补强TPU/SiO_(2)抗撕裂效果较佳。

高稳定性增深硅油乳液在织物整理中的应用

针对当前增深硅油乳液稳定性不佳、整理织物撕裂强力显著降低的问题,合成了增深硅油乳液,并研究了其乳液稳定性、增深整理工艺条件及应用性能。结果表明:该增深硅油乳液具有优异的乳液稳定性,较优的应用工艺条件为质量浓度30~60g/L、焙烘温度140~180℃、焙烘时间为60~100s。其在黑色涤纶织物上增深率最高(88.50%)、撕裂强力几乎无损失,且具有优异耐摩擦色牢度、耐皂洗色牢度和手感,市场应用前景良好。

基于非线性本构的织物膜材梯形撕裂数值分析

为提高针对织物复合膜材撕裂力学响应数值分析的精确性,本文基于连续损伤力学理论,建立了PVDF涂层织物膜材的非线性损伤本构模型。结合梯度为15°的偏轴拉伸试验,验证了非线性本构模型的精确性;并将非线性本构模型纳入数值分析,与传统三折线本构模型及梯度为15°的梯形撕裂试验结果进行对比,验证非线性本构在撕裂力学响应方面的精确性。结果表明:非线性本构模型可有效跟踪膜材实际应力-应变曲线。在撕裂力学响应方面,两种模型均能体现系列参数变化对撕裂性能的影响规律及相应撕裂机理,但非线性本构模型在破坏形态上能更好地体现膜材撕裂过程中拉剪耦合复杂应力影响。

聚氨酯防水涂料在建筑外墙钢板的应用研究

为了提高建筑外墙钢板的使用寿命,增强建筑的防水效果,用甲苯二异氰酸酯、聚醚多元醇等原料制备聚氨酯预聚体。分别添加质量分数为1%~6%的纳米TiO_(2)、纳米ZnO、纳米SiO_(2)复合改性剂,制备出3种纳米复合聚氨酯防水涂料试样,并测试每种试样的耐化学腐蚀性能、撕裂强度及使用性能。结果表明:在3种试样中,添加纳米TiO_(2)、纳米ZnO的试样黏度、耐化学腐蚀性能、耐水性均低于添加纳米SiO_(2)的试样。添加纳米SiO_(2)的试样不仅具有良好的外观,且撕裂强度与穿刺力较高,可确保涂料良好的耐划伤能力。其中,添加质量分数为4%的纳米SiO_(2)试样的使用性能及拉伸性能更佳。因此,选用添加质量分数为4%的纳米SiO_(2)的复合聚氨酯防水涂料作为建筑外墙钢板涂料较好。

空间辐射对甲基苯基乙烯基硅橡胶胶料性能的影响

研究空间辐射对甲基苯基乙烯基硅橡胶(MPVQ)胶料性能的影响。结果表明:随着辐射剂量的增大,MPVQ胶料的外观颜色呈现白-淡黄-灰黄的变化趋势,硬度增大,拉伸强度和撕裂强度曲线呈S形变化;当辐射剂量为1×10^(6)Gy(Si)时,MPVQ胶料的拉伸强度、拉断伸长率和撕裂强度分别减小20%,89%和69%,当辐射剂量大于1×10^(6)Gy(Si)时,MPVQ胶料的拉伸强度和撕裂强度出现一定程度反弹,随着辐射剂量的进一步增大,MPVQ胶料的拉伸强度和撕裂强度回落,而MPVQ胶料的拉断伸长率始终呈下降趋势;MPVQ制品基本满足静态运行航天器15年的运行寿命要求,但最终MPVQ制品的弹性和承力能力基本丧失,在外力作用下易脆裂,MPVQ制品不宜应用于裸露在空间环境中的长寿命航天器动态机构中。

涂层类安全气囊织物的性能探讨

研究了生产实际中的液态硅橡胶组分、涂层张力、循环风机转速、涂层速度和搅拌方式等条件因素对涂层类安全气囊织物性能的影响。结果表明:涂层类安全气囊织物生产过程中,提高液态硅橡胶B组分比例、提高涂层张力、增大循环风机转速、降低涂层速度和手动搅拌液态硅橡胶有利于提高撕破强力和断裂强力。提高液态硅橡胶B组分比例、降低涂层张力、增大循环风机转速、降低涂层速度和手动搅拌液态硅橡胶有利于降低静态透气性。

硫化胶直角撕裂性能评价新方法

采用数值模拟和试验验证相结合的方法,对现行橡胶测试样条无割口直角形撕裂强度评价方法进行优化,首先通过仿真软件对橡胶测试样条不同夹持距离直角口处的撕裂能进行数值模拟,然后将先进视频引伸计与数字图像相关分析软件联用以获得测试样条的撕裂应变分布云图及多位置应变随时间的变化曲线,提出了结合应变分布云图和撕裂强度修正值综合评价胶料无割口直角撕裂性能的新方法,通过纯天然橡胶、天然橡胶/合成橡胶共混胶撕裂强度测试验证了该方法的适用性。结果表明,当测试样条其他参数相同、夹持距离不同时,其非有效测试区域的拉伸程度不同,直角口处撕裂能也不同,增加了测试结果的波动性。较之于现行标准,采用撕裂强度修正值可以减小平行测试结果的变异系数,其测试结果与胶料中炭黑分散度呈正相关。

远红外线陶瓷粉对硅橡胶性能的影响

利用液体硅橡胶注射成型机,使用远红外陶瓷粉和加成型液体硅橡胶材料可制备远红外硅橡胶制品。利用远红外陶瓷粉的热效应,可提高远红外硅橡胶制品的附加值。远红外陶瓷粉的填加量对硅橡胶制品的拉伸性能和撕裂性能会有一定的影响。通过对比试验,使用万能试验机对远红外硅橡胶试样的性能与普通硅橡胶试样的性能进行测试和对比分析。实验结果表明:填加远红外陶瓷粉后,远红外硅橡胶的拉伸强度减小,拉断伸长率减小,撕裂强度增大。并且在推荐值范围内随着远红外陶瓷粉填加量的增大,远红外硅橡胶的拉伸强度逐渐减小,拉断伸长率逐渐较小,撕裂强度逐渐增大。远红外硅橡胶制品在设计配方时,要考虑远红外陶瓷粉用量对制品性能的影响,合理选择材料。

Evaluate the Strength of Denim Goods Using Different Washing Technique

Day by day, the demand and popularity of denim have increased. With the increase in demand for denim, washing has also increased. When we washed a piece of denim fabric, then its properties also changed. The properties are tensile strength, GSM, color fading, stiffness, abrasion resistance, moisture regain, etc. In this study, we conduct different washing processes on denim fabric such are Stonewash, Caustic wash, Acid wash, Normal wash, Pigment wash, Sandblasting, and Super whitewash. After washing, the properties of denim fabric have been analyzed especially strength. The tear and tensile strength were measured by ISO standard. From the above washing method, Normal & pigment wash showed good strength properties comparing with others.

高强钢中非氢为主导因素引发的氢脆断裂

综合分析近年来高强钢的断裂微观特征,发现一些过去被忽视但对氢脆断裂影响极为关键的新现象。如氢含量低于0.2 ppm时氢脆现象仍可发生,强度和应力(集中)是氢脆断裂中最为突出的影响因素,晶界撕裂棱线在磨削裂纹面和淬火裂纹面普遍存在等。本文针对晶界撕裂棱线能否作为高强钢中氢是导致氢脆失效的根本原因的判断问题,列举了成分偏析、选材、回火脆性、残余应力、磨削加工等5个非氢为主导因素引发的氢脆现象。旨在为企业及技术人员提供参考和借鉴:除了要严格执行氢处理规范外,在高强钢的设计、工艺、制造等方面也要引起足够的重视。

A STUDY OF TEARING PROPERTIES OF MEMBRANE COATED FABRICS

In this paper,an equation expressing relationship between trapezoid tear strength and fabrictensile properties,weave texture and geomitry of specimen was studied.It could be used to predicttrapezoid tear strength for uncoated fabrics well,and also for coated fabrics if multipling a stressconcentration coefficient.The four tear test standard methods(single-rip,double-rip,wing-ripand trapezoid tear)have been adopted to measure the tear strength of fifteen coated fabrics whichwere used for architecture and gencral industrial purposes and the nine corresponding uncoatedfabrics respectively.Analysis and comparison of experimental results showed that there are an ex-cellent correlation between each two methods with the four tear parameters respectively and a goodconsistency of the order of the tear strength for different samples.In addition,the experimental results showed that a good correlation exists between the tenslieproperties and tear strength of coated and uncoated fabrics.

齿轮式滤胶机过滤全钢胎气密层实验研究

经过普通方式加工后的丁基混炼胶不能达到高载重轮胎的气密性要求,在原有的滤胶机上加装齿轮泵机头,既实现了高压挤出,又实现了精细滤胶,在同样材料的胎内胶配方下,利用自主研制的双驱同步橡胶齿轮泵式滤胶机对气密层进行精细滤胶,研究它在过滤后的性能,而且更换不同的滤网,来探究滤网目数对胶料性能的提升程度。在经齿轮泵式橡胶滤胶机过滤的胶料性能均有不同程度的提升,在150目下,性能提升幅度最大,其中胎内胶的撕裂强度提升20.21%,说明滤网过滤胶料杂质的同时还能平顺分子链的作用,滤网目数越高,分子链更加平顺,但是滤网目数越高,过滤时对胶料的阻力越大,当胶料过滤后,阻力消失,由于热运动与微构象的转化,分子链会自发恢复到混乱状态,导致胶料的机械性能会先上升后下降;透过系数降低了78.11%,丁腈中的甲基对称分布,分子结构对称,这使得聚集态结构堆砌紧密,又由于齿轮泵的过滤,使得胶料内的气体减少,聚集态结构堆砌更加致密,气密性提升,但是滤网目数越高,胶料所受到阻力越大,挤出滤网后的挤出涨大现象更加明显,聚集态结构堆砌愈发松散,所以气密性相对降低。这证明丁基混炼胶经过双驱同步橡胶齿轮泵式滤胶机过炼后实现了在同样的材料和配方下的气密层的性能提升。

Research on Tearing Property of Reinforced Plastic Film with Bi-axial Warp Knitted Fabric Skeleton

The specification of laid-in and warp yams,thedensity of fabric and the specification of groundyam are of great importance when the bi-axialwarp knitted fabric being knitted.In this paper,the tearing property of the reinforced plastic filmwith bi-axial warp knitted fabric skeleton istested and analyzed.The resuits show thatamong the three factors,the specification of laid-in and warp yam has the greatest influence onthe tearing strength of the reinforced plastic film,while the rest of them has secondary and lesseffect respectively,and there is exponential re-lation between the tearing strength of the rein-forced plastic film and the number of yams in thedirection of force.

Temperature-Dependent Tearing Behavior of Rubber Materials:Characterization and Modeling

With the increasingly widespread application of rubber in many fields,there is a growing demand for quantitative characterization of temperature-dependent mechanical properties in high-temperature service environments.The critical tearing energy is an important criterion for determining whether rubber materials will experience tearing instability,while tear strength is a key parameter for rubber materials to resist tearing.It is necessary to quantitatively characterize their evolution with temperature.Current theoretical research mainly relies on fitting a large amount of experimental data,which is not convenient for engineering applications.Therefore,in this work,a temperature-dependent critical tearing energy model is firstly developed based on the force-heat equivalence energy density principle.This model considers the equivalent relationship between the critical tearing energy required for crack instability propagation and the thermal energy stored in the rubber material.It is demonstrated that our model has higher prediction accuracy when compared to other models.Furthermore,combining with the Griffith fracture theory,temperature-dependent tear strength models applicable to three different crack modes are separately established.These models are validated using experimental data for Mode I opening cracks and ModeⅢtearing cracks,and good consistency is achieved.Additionally,a quantitative analysis of the influence of elastic modulus on tear strength at different temperatures is conducted.This work provides a reliable way for predicting temperature-dependent tearing instability behavior and offers beneficial suggestions for improving the tear strength of rubber materials at different temperatures.

导水加筋土工织物的力学和芯吸性能分析

以4DG尼龙纱线和涤纶长丝为原料,设计并制备导水加筋土工织物。为探究排水纱线和加筋纱线线密度对导水加筋土工织物抗拉强度、撕破强力、顶破强力及芯吸性能的影响,制备了6种导水加筋土工织物并测试其性能。结果表明:所得导水加筋土工织物在其排水方向上的芯吸性能良好,且结构稳定,力学性能良好;增大排水纱线线密度,织物的经向抗拉强度随之增加,但纬向抗拉强度和撕破强力下降;增大加筋纱线线密度,织物的纬向抗拉强度增加,但经向抗拉强度下降,撕破强力也相应降低。

织物增强的飞艇蒙皮强度分析测试

为研究飞艇蒙皮材料强度性能及超压承载对其剩余强度的影响,设计了蒙皮材料单轴和双轴拉伸的试件形式和实验方案,并借助于高速摄像机分析飞艇破坏情况。基于实验数据,拟合出飞艇承载气压时蒙皮单轴拉伸强度曲线、蒙皮双轴拉伸时材料的经纬向强度包络线。实验结果表明,单轴拉伸时,蒙皮的剩余强度与飞艇承载气压表现出负向相关关系;双轴拉伸时,蒙皮承载强度受经向和纬向强度综合影响。该实验分析了飞艇蒙皮的失效情况,可为其强度预报提供实验依据。

传统卷烟用再造烟叶基片撕裂度影响因素研究

为改善再造烟叶产品的耐加工性能,提升传统卷烟用再造烟叶生产过程稳定性和生产效率,研究不同实验室抄造工艺条件下再造烟叶基片的撕裂度性能,得出烟草浆、外加纤维、碳酸钙以及瓜尔胶添加对撕裂度的影响规律并与其对松厚度和抗张强度的影响规律进行对比。结果表明:①随着烟末浆和碳酸钙添加比例增加以及外加纤维打浆度提升,基片撕裂度逐渐下降;随着外加纤维添加比例增加,基片撕裂度逐渐上升;随着烟草浆打浆度升高,基片撕裂度先上升后下降;随着瓜尔胶添加比例增加,基片撕裂度先下降后上升。②除了烟末浆和碳酸钙添加比例,基片撕裂度和抗张强度随着其他工艺条件的变化都呈现出较为不同的变化趋势。③烟草浆打浆度对基片松厚度和抗张强度的影响最大,而基片撕裂度则受外加纤维添加比例的影响最大。

地下室防水工艺材料技术分析

针对地下室存在的频繁漏水和防水材料经久性能衰弱等问题,本文以实验室及防水工程项目为例,主要对SBS改性沥青防水卷材和SBC聚乙烯丙纶复合防水卷材的性能进行理论分析。分别进行20个试件的防水材料冻融干湿循环试验,10个试件的剥离强度试验和10对试件的搭接接缝撕裂强度试验,并在37座地下室防水工程项目上进行渗漏水试验。研究结果表明,在冻融干湿循环实验中,SBC材料样本比SBS材料更耐受,其中5次冻融干湿循环,部分或全部分离率只有20%,而SBS材料分离率达到了100%,充分验证了该材料的耐久性;在剥离强度试验中,SBC平均剥离强度为3.04 N/mm;在搭接接缝撕裂强度试验中,SBC的平均撕裂强度为1.58 N/mm。说明SBC乙烯丙纶复合防水卷材综合性能高于SBS改性沥青防水卷材,而且SBC的铺贴在混凝土板上粘结结实,能与混凝土板形成整体防水,使地下室混凝土墙防水性能更优。在实际工程项目应用中,20座地下室不渗漏的优良率达100%,验证结果表明整体防水效果较好。该研究具有较大的工程应用价值。