M2.Eco-bismuth (CDA C89841 Copper-Bismuth Alloy)

T1 Test to check molten metal flow and trial production

T1 Test to check molten metal flow and trial production

Metal mold temperature approximately 95°C
Temperature during pouring about 1010°C

Molten metal flow is good

Molten metal sufficiently fills the mold up to up-hill part for degassing.

The run of the molten metal was about the same with fast and with slow flow of the molten metal supplied to the product part.

A defect was found in trial production caused by shrinkage in the part sandwiched by the core, which is the part that solidifies last.。

We believe the defect can be resolved by using a different gate thickness and position

T2 Teeter mold test

T2 Teeter mold test

Result: Good It can be used for permanent mold casting

The inner surface of internal shrinkage was bumpy with deep shrinkage. Cracks were observed in the shrinkage.

Color check of the internal shrinkage part indicated a large red stained area on the surface, and the texture tended to be rougher.

A plan that sufficiently considers metal mold castability including shrinkage is necessary.

Molten metal temperature may not be suitable. A temperature range must be used that is suitable for permanent mold casting.

Suitable melting technology may need to be confirmed. (The method used to make molten metal may have been unsuitable. )

T3 Confirmation of mechanical properties

Tensile strength: 451 N/mm2 Degree of elongation: 37%

Greatly exceeds the standards for common brass and bronze materials.

T4 Analysis and confirmation of molten metal components

    Cu Sn Pb Zn Bi Fe Nii Si Cd
1. Standard value 73.0-77.0 0.3Max 0.2Max 18.0-23.0 0.5-1.0 0.1Max 0.2Max 2.8-3.2  
2. Purchased materials 74.76 0.07 0.05 21.31 0.71 0.03 0.01 3.03 8ppm
3. Before melting 75.2 0.03 0.007 20.86 0.81 0.02 0.005 3.03 8ppm
4. At the time of test production 75.6 0.03 0.008 20.41 0.789 0.02 0.005 3.13 7ppm

Molten metal management is relatively easy

Attention to Zn depletion is required but no significant depletion was observed.

T5 Confirming processability

Confirming processability

It is hard and tough compared to common brass.

Chips are small but larger than those of common brass.

Processability is in the range where there is no problem if the condition is changed.

T6 Evaluation of pressure resistance of trial production


This trial product was not perfect, but good results were obtained.Metal mold plan and casting condition have large effects on pressure resistance.

Preliminary trial production

Leakage was observed in all products in preliminary trial production.Leakage was observed at the part sandwiched by core sand that solidifies last.There was no leakage at the part in direct contact with the metal mold.

True trial production

It can be improved through thickness settings and the way molten metal flows based on the metal mold plan.After changing the plan and thickness setting of the product, the results in true trial production were good.

Results and evaluation

Results and evaluation
Results and evaluation

Metal mold castability is good.

It can also be used as a material for permanent mold casting.

Mass production through low-pressure permanent mold casting is possible but continued investigations of permanent mold casting conditions, such as suitable pouring temperature as well as metal mold temperature, are necessary. Mass production is easily possible in the present state if the permanent mold casting product is small. However, the features of the plan must be changed from that for commonly used leaded brass material.

If we can find a suitable metal mold plan and suitable permanent mold casting conditions, higher values of mechanical properties can be obtained compared to commonly used brass, and therefore we can expect a reduced weight of permanent mold casting products through reduced thickness.