三维正交机织物,3-D orthogonal woven fabric
1)3-D orthogonal woven fabric三维正交机织物
1.3-D orthogonal woven fabric structure with binding weft;纬纱接结的三维正交机织物结构
2.The paper reviews the three-dimensional structure of the fabric and the use of new features; analysis of the current most widely used3-D orthogonal woven fabric weaving methods and weaving machinery, details of a novel woven/knit structure of the three-dimensional structure, and can be woven fabrics of this new type of woven fabric/mixed weaving loom works.概括了三维结构织物的新特点和用途,叙述了目前应用最为广泛的三维正交机织物的织造方法及其织造机械,详细介绍了一种新颖的机织/编织结构的三维织物结构,以及可以织造这种织物的新型机织/编织混合织机的工作原理。
3.A series of continuous cross-sections of3-D orthogonal woven fabric were obtained from cutting the 3-D fabric along warp and weft direction.切取三维正交机织物沿经向和纬向的连续横截面,在三维视频显微镜下拍摄和分析织物横截面中经纱、纬纱和Z纱的横截面形态、纱线空间构型,用参数方程表征理想状态下织物中经纱、纬纱和Z纱截面尺寸及屈曲形态。
英文短句/例句
1.Geometrical and Mathematical Characterization of 3-D Orthogonal Woven Fabric Architecture三维正交机织物组织结构的几何表征和数学表征
2.Study on Structure and Mechanical Performance of Three-dimensional Orthogonal Woven Composites;三维正交机织复合材料结构与力学性能研究
3.Experimental Investigations on z-direction Compression Behavior of 3D Orthogonal Woven Composites三维正交机织复合材料厚向压缩性能试验研究
4.Numerical Simulation of 3D Orthogonal Woven Composite Impacted by a Spherical Bullet三维正交机织复合材料弹道侵彻数值模拟
5.Cell model of 3D orthogonal woven composite and its application三维正交机织复合材料的单胞模型及应用
6.Ballistic property and damage modes of 3-D orthogonal woven composites三维正交机织复合材料的弹道性能和破坏模式
7.Dynamic compressive properties of 3D orthogonal woven composites三维正交机织复合材料的动态压缩性能
8.Transverse Impact Behavior of Three-dimensional Orthogonal Hybrid Woven Composites and Finite Element Analysis;三维正交机织混杂复合材料的横向冲击性能及有限元分析
9.Fabrication and High Strain Rate Compression Behavior of 3D Orthogonal Woven Composites;三维正交机织复合材料的制造和高应变率压缩行为的研究
10.The Point Impact Responses of 3D Orthogonal Woven Composite and FEM Calculation;三维正交机织复合材料点冲击响应和有限元计算
11.Conformal Load-Bearing Microstrip Antennas Based on 3D Orthogonal Woven Composites基于三维正交机织复合材料的共形承载微带天线的研究
12.The Experiment and Damage Mode of 3D Orthogonal Woven Composite under Ballistic Impact三维正交机织复合材料弹道冲击实验及破坏模式
13.Implementation of Backed Cloth Computer 3D Simulation二重组织织物计算机三维模拟的实现
puter 3-D simulation on basic structure of weft knitted fabrics纬编针织物基本组织的计算机三维模拟
15.Research and Implementation of Interactive CAD of Structure of 3-D Woven Composites;三维机织复合材料结构交互式CAD研究与实现
16.Kinematics analysis on a kind of 3-CRR 3D translation and orthogonal parallel mechanism一种3-CRR三维平移正交并联机构的运动学分析
17.fabric of nettle fibre, woven机织荨麻属纤维织物
18.fabric of sida fibre, woven机织黄花稔属纤维织物
相关短句/例句
3D orthogonal woven fabric三维正交机织物
1.By analyzing the unit cell of3D orthogonal woven fabric, the sizes of warp, fill and binder yarn cross-sections were calculated and the relationships of FVF with the fabric parameters were established.通过分析三维正交机织物单元体的结构,可以计算经纱、纬纱和捆绑纱的截面尺寸,建立纤维体积含量与织物参数间的关系。
3)3D orthogonal woven三维正交机织
1.Dynamic compressive properties of3D orthogonal woven composites三维正交机织复合材料的动态压缩性能
4)3-D orthogonal woven composite三维正交机织复合材料
1.As for3-D orthogonal woven composite,a new homogenized eigen-element method is proposed in this paper.基于三维正交机织复合材料,提出了一种特征单元均匀化分析方法。
2.As a typical 3-D construction composite,3-D orthogonal woven composites is famous for its excellent mechanical property, especially the high resistance of delaminate and fracture.三维正交机织复合材料是一种典型的三维纺织结构复合材料,由于Z方向绑定纱的引入,使其在各种三维结构复合材料中脱颖而出,尤其是抗冲击性能极其优秀,在高性能复合材料领域中得到首肯。
5)fibric reinforced composites三维正交编织
1.This paper deals with the problem of the micromechanics analysis of the shear modulus of 3-D orthogonal wovenfibric reinforced composites.本文对三维正交编织纤维增强复合材料的剪切模量进行了细观力学分析,提出了一种细观力学分析模型,得出了这种材料的剪切模量混合律和非主轴方向上的本构关系。
6)3-D woven fabric三维机织物
1.In this paper we introduce the characteristic of the3-D woven fabric,and mainly recommend the performance、the use and the designing principle of the3-D woven fabric.介绍了三维织物的特点,着重介绍了三维机织物的性能、用途以及结构设计原理和设计要点,并对几种典型的三维机织物预制件的结构设计进行了详细说明。
2.The box profile3-D woven fabric is a kind of composite preform.箱框型三维机织物是制作复合材料用的一种预制件。
延伸阅读
SYH系列三维运动混合机用途该机广泛应用于制药、化工、食品、冶金、轻工及科研单位,能非常均匀地混合流动性较好的粉状或颗粒状的物料,使混合后的物料能达到最佳混合状态。特点由于混合桶体具有多方向的运动,使桶体内的物料交叉混合点多,混合效果高,均匀度可达99.9%以上最大装载系数可达0.9(普通混合机为0.4~0.6),混合时间短,效率高。该机混合桶体型设计独特,桶体内壁经过精细抛光,无死角、不污染物料,出料方便,清洗容易操作简单等优点。工作原理:该机在运行中,由于混合桶体具有多方向运转动作,使各种物料在混合过程中,加速了流动和扩散作用,同时避免了一般混合机因离心力作用所产生的物料比重偏析和积聚现象,混合无死角,能有效确保混合物料的最佳品质。结构:该机由机座、传动系统、电器控制系统,多向运动机构,混合桶等部件组成,与物料直接接触的混合桶采用不锈钢材料制造,桶体内外壁均经抛光。