In this paper, damage theory is initially introduced into the study of recycled fiber damage.
本文首次将损伤理论引入回用纸页损伤研究中。
To add separate carding and decrease cotton knots and fiber damage have long been focus of carding procedure.
增加分梳以减少棉结与纤维损伤,历来是清梳工序的主攻方向。
The interaction between wool fibers and carding elements is very complicated and often causes a considerable amount of fiber damage.
梳理部件与羊毛纤维的相互作用非常复杂,会造成羊毛纤维损伤。
Abstract: Textile will be subject to mechanical, chemical and thermal effect, resulting in fiber damage from fiber to dyeing process.
摘要:纺织品从纤维到染色的加工过程中,会受到机械、化学和热学的作用,从而导致纤维损伤。
Collagen fiber damage caused by cyclic leaflet bending may ultimately lead to the observed leaflet tearing, calcification up to failure of BPVs.
由于瓣叶周期性弯曲而造成的胶原纤维损伤会诱发瓣叶撕裂和钙化,直至瓣膜失功。
The influences of the various preliminary agents, protease and TG enzyme on the wool shrinkage resistance , wool fiber damage and fabric strength were discussed.
探讨了不同前处理剂、蛋白酶和TG酶对羊毛织物抗毡缩性能及对纤维损伤和织物强力等的影响。
The influences of the various preliminary agents, protease and TG enzyme on the wool anti-felting performance, wool fiber damage and fabric strength were discussed in this paper.
文章探讨了不同前处理剂、蛋白酶和TG酶对羊毛织物抗毡缩性能及对纤维损伤和织物强力等的影响。
Besides the functions of carding and separating fiber tail end, top comb can also form added friction fields that strengthen the control of float fibers to decrease fiber damage effectively.
分析了顶梳除具有梳理分离纤维丛尾端的作用外,同时形成附加摩擦力界,加强对分离纤维丛中浮游纤维的控制,以减少有效纤维的损伤。
The wool anti-felting performance could be improved and the wool fiber damage could be controlled by use of new bio-finishing process of the wool combining oxidation, protease and TG enzyme.
采用氧化前处理与蛋白酶及TG酶三者结合新工艺,可以在保证纤维损伤小的前提下,提高织物的抗毡缩性。
The result shows that the speed of dyeing and the equilibrium dyeing rate have a sharp increased after treated, thus the dyeing temperature and the dosage of acid minimized to reduce the fiber damage.
结果表明,处理后的兔毛纤维染色速率、平衡上染率都有所提高,可降低染色温度和染色时酸的用量,从而降低纤维所受到的损伤。
This stripping method was demonstrated to be little damage to cashmere fiber, and more suitable for acid dyed cashmere yarn.
显微镜观察发现此剥色方法对羊绒纤维的损伤小,尤其适合酸性染料染色的羊绒纱线。
The methodology of fracture mechanics based on continuous crack growth was applied to the investigation of the microscopic damage evolution and toughness calculation for fiber composites.
文中以裂纹连续扩展的断裂力学方法,研究单向纤维复合材料的细观损伤演化与韧度计算。
The tensile damage behavior involves:matrix microcracking, transverse bundle cracking, interfacial debonding, fiber fracture, ply delamination and bundle splitting.
拉伸破坏损伤表现为:基体开裂,横向纤维束开裂,界面层脱粘,纤维断裂,层间剥离和纤维束断裂。
Through experiment and theoretical analysis, this paper summed up damage resistance synergetic effect of polypropylene fiber, steel fiber and expanding agent.
同时通过实验与理论分析,总结了聚丙烯纤维、钢纤维和膨胀剂对混凝土损伤抑制的复合效应。
Based on damage theory, the stress-strain curve got from experiment is analyzed in order to study the effect of material strength and mechanical properties by fiber content.
基于混凝土损伤理论,在试验得到的应力—应变曲线的基础上,分析了纤维含量和应变率对材料强度及材料力学行为的影响。
The experiment makes crude protein fiber a pretreatment with ferrous ion. It can increase whiteness and reduce the damage effectively as well.
通过实验利用二价铁离子对天然有色蛋白质纤维进行预处理,可以有效的降低损伤,提高白度。
Further more, a damage softening constitutive model is set up in which the effect of fiber reinforcing and strain-rate hardening are considered.
并建立了一种包含纤维增强效应和应变率增强效应在内的损伤本构模型。
The results indicated that the preparation of optical films of fiber laser, effectively raise the laser damage threshold, and solve the problem of the film firmly under low temperature deposition.
结果表明,本文制备的光纤激光器光学膜,有效的提高了激光损伤阈值,解决了低温冷镀的膜层牢固性问题。
Spectrum analysis was performed to determine the micro-mechanism of damage evolution of C fiber 3-D braiding composite material.
通过声发射波形信号的频谱分析,研究了碳纤维三维编织复合材料拉伸损伤的细观机理。
This paper analyses the deformation and the damage probability of knitted fabrics during sewing by means of the "tracer fiber" method.
本文用示踪纤维的方法,观察和分析了缝制针织物时针织线圈的变形和受损概率。
Crude protein fiber can hardly get an appropriate whiteness by traditional bleaching method, with which the fiber will serious damage.
传统的漂白方法不能使天然有色蛋白质纤维得到令人满意的白度,对纤维又有很大的损伤。
The type and the form of steel fiber in concrete are described and analyzed and the mechanism of steel fiber reinforced concrete such as reinforcement, damage and cracking resistance is discussed.
对钢纤维的类型以及在混凝土中的形态进行描述与分析,探讨了钢纤维混凝土的增强、破坏及抗裂机理。
These experimental results suggested that colchicine may inhibit the formation of collagenous fiber of liver of chronic damage, but the effect of colchicine on the re...
结果提示秋水仙碱有抑制慢性肝损害胶原纤维形成的作用,但对肝细胞功能的恢复作用不明显。
These experimental results suggested that colchicine may inhibit the formation of collagenous fiber of liver of chronic damage, but the effect…
结果提示秋水仙碱有抑制慢性肝损害胶原纤维形成的作用,但对肝细胞功能的恢复作用不明显。
The damage and failure of the interface is a crucial mechanical problem for exploring the toughening effect in fiber-reinforced composites.
界面的破坏与失效是考察纤维增强复合材料产生增韧效应的关键力学问题。
Then, by reasonably defining damage factors, the fatigue damages and the corresponding evolution principles of the new material and the steel fiber-reinforced concrete were measured by experiments.
通过合理定义损伤变量,由试验测定了新材料和钢纤维增强混凝土的疲劳损伤及其演化规律;
Quartz fiber has a better optical conductivity and stronger toughness, that reduces probability of artificial damage.
石英光纤导光性更好,韧性更强减少人为损坏可能性;
The research to establish a model of freeze-thaw damage of fiber reinforced lightweight aggregate concrete for relative dynamic elastic based on experimental results has been done.
对冻融循环试验结果研究,提出基于动弹性模量衰减的纤维轻骨料混凝土冻融损伤模型。
This stripping method was demonstrated to be little damage to cashmere fiber, and more suitable for...
显微镜观察发现此剥色方法对羊绒纤维的损伤小,尤其适合酸性染料染色的羊绒纱线。
This stripping method was demonstrated to be little damage to cashmere fiber, and more suitable for...
显微镜观察发现此剥色方法对羊绒纤维的损伤小,尤其适合酸性染料染色的羊绒纱线。
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