1) revolving matrix
旋转凹模
1.
The paper stated the structure character of the progressive die with revolving matrix for wiring terminal,from the aspects of the stock layout design,procedure design,feeding mechanism and process.
介绍了接线端子级进模的排样设计、工序设计、具有旋转凹模的模具结构特点、送料机构及模具工作过
2) Spiral concave die
螺旋凹模
3) rotational molding
旋转模塑
1.
Study on High-speed Rotational Molding Processing of Glass Fiber Reinforced Polyester Pipe;
玻璃钢管的高速旋转模塑成型工艺研究
2.
Study on pigmentation of field medical chest by rotational molding;
野战医疗箱旋转模塑工艺条件下着色研究
3.
It was suggested that in the rotational molding, the initial viscosity controlled the wall thickness of the product and the gel rate controlled the uniformity of the wall thickness.
应用正交实验方法研究了引发剂、促进剂及二氧化硅(SiO2)粉末的加入量对旋转模塑成型制品壁厚和壁厚均匀程度的影响,测定了不同配比黏度变化曲线,找出了树脂体系黏度变化对成型制品质量的影响规律。
4) Rotational moulding
旋转模塑
1.
A new process of the rotational moulding process for 3-D braiding was designed.
开发设计了三维编织旋转模塑新工艺,以三维编织圆管为增强材料、TDE-85环氧树脂为基体,对其成型工艺进行了设计,初步讨论了模具结构、加热时间、旋转速度、主次轴转速比、树脂加料量、树脂的浸润等因素在工艺中的作用。
2.
The number of advantages which includes low level of residual stresses, low product cost, being suitable to produce large hollow plastic production offered by this process over other plastic processing methods makes rotational moulding lots of engineering sense.
旋转模塑是一种以塑料粉末为原料成型中空塑料制品的工艺。
5) spin-mould
旋转模具
1.
A novel blown-film spin-mould for co-extrusion of multi-layer and composite plastic film was designed and compared with the conventional ones.
设计了新型多层共挤复合吹塑薄膜旋转模具并与常规的多层共挤复合吹塑薄膜旋转模具相比较,采用了短圆柱体式的芯棒结构,芯棒上的多头螺纹沟槽的螺纹导程仅为0。
6) revolving mode
旋转模态
1.
In this paper,the operating principle of ultrasonic motor using revolving mode in plane is presented.
阐述了面内旋转模态超声波电机的工作原理 ,针对面内旋转模态电机的特点 ,分别从陶瓷片的极化、工作界面的确定、振动模态的选择、定子的固定方式、预紧机构的设计几方面论述了电机设计过程中应当注意的问题。
补充资料:凹模壁厚及凹模垫板尺寸
型腔壁部投影面积 壁 厚, 毫 米
F, 厘米2 h1 h2 h3 h4 h5
<5 15~20 30~40 <=10 15~20 30~40
>5~10 20~25 40~50 10~15 20~25 40~55
>10~50 20~30 50~60 15~20 20~30 55~65
>50~100 30~35 60~75 20~25 30~40 65~70
>100~200 35~40 75~85 25~30 40~50 70~75
>200 >40 >85 30~35 50~60 >80
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条