不锈钢铸造在进行使用的过程中其机械性能要比铸铁的机械性能要高点,但是这样的材料其铸铁的性能会差些,其在进行制作的过程中其熔点相对于其他的材料来说要高些。其在进行加工的过程中需要注意的问题是挺多的,主要是因为钢水的流动性能是比较差的,在进行加工的过程中,我们为防止铸钢件产生浇注不足或者是冷隔,铸钢件的壁厚是不能小于8mm的。其浇注系统的结构力是比较简单的,在进行使用的过程中其设备中的截面尺寸要是铸铁的大,这样在进行加工的过程中也可以采用其热铸型或者是干铸型。
The
mechanical properties of stainless steel casting during use are
slightly higher than those of cast iron, but such materials have poorer
properties of cast iron, and their melting point is higher compared to
other materials during production. There are many issues that need to be
paid attention to during the processing, mainly because the flow
performance of molten steel is relatively poor. During the processing,
in order to prevent insufficient pouring or cold shuts in the steel
castings, the wall thickness of the steel castings should not be less
than 8mm. The structural force of its pouring system is relatively
simple, and the cross-sectional size of the equipment during use should
be larger than that of cast iron. In this way, its hot or dry casting
mold can also be used during the processing.
温度确定熔体在转注过程很好的流动性,选择不钢铸造温度要根据转注的距离、转注过程降温的情况、合金、规格、流量等一些因素来确定,不锈钢铸造温度比合金液相线温度高50到110℃。制作温度可以确定其熔体在转注的过程中会有很好的流动性,设备在选择其铸造温度的过程中需要根据其转注的距离以及转注过程降温的情况等一些因素来进行确定。
The
temperature determines that the melt has good fluidity in the process
of conversion. The selection of stainless steel casting temperature
depends on some factors such as the distance of conversion, temperature
drop during conversion, alloy, specification, flow rate, etc. The
stainless steel casting temperature is 50 to 110 ℃ higher than the alloy
liquidus temperature. The production temperature can determine the good
fluidity of the melt during the pouring process. The equipment needs to
determine the casting temperature based on factors such as the distance
of pouring and the cooling situation during the pouring process.
