Measurement technology supporting µ-MIM technology

Measurement technology supporting µ-MIM technology

μ-MIM® Technical Newsletter Vol. 17: Measurement technology supporting µ-MIM technology

MIM parts manufactured by our µ-MIM technology are small and complex shapes so the measurement technology is a key technologies which support the quality of µ-MIM product. In this issue, we introduce the quality assurance measurement of small module gears and non-standard gears that any standard exist.

Contact and non-contact measuring machines

We employ contact and non-contact type 3D measurement machine as quality assurance evaluation. The number of products that do not allow probes of contact type measurement machine to enter, such as small module gears and internal gears, is continuously increasing. Therefore, the measurement ratio by the non-contact type measuring machine is also increasing. We introduce the non-contact measuring machines; an optical non-contact 3D measuring machine and X-ray CT scanner.

Optical non-contact 3D measuring machine

MIM measurement equipment

It has been almost 10 years since the company introduced an optical non-contact 3D measuring machine ATOS triple scan by GOM. At that time, we purchased shortly after it was released in the market  assuming that it could capture the highest resolution of any optical measuring machines. This is a type of dimension measuring machine that can measure very small objects with the highest resolution even present time.

X-ray CT measuring machine

CT Scanner for MIM

Nikon’s MCT225 CT scanner is utilized in our evaluation. Unlike an optical measuring machine, there is no influence from surface reflection. Therefore, pretreatment such as surface coating is not required. In addition, it can be used to measure internal gears because it is possible to obtain non-destructive numerical data on the internal structure from the characteristics of X-ray.

Measurement in µ-MIM technology

High resolution measuring machine is necessary for quality assurance evaluation for our Micro metal injection molding (µ-MIM) parts. However, the technologies, the experiences to analyse the data and the pre-processing treatment of specimen are more indispensable.

In addition to those technologies and experiences we have cultivated analysis technology of the tooth surfaces. It is comparing the analysis data obtained from X-ray CT scanner and optical measurement with 3D model data. We provide our Micro metal injection molding (µ-MIM) products to customers with the results of this uniquely developed analysis technology. We also conduct analysis services of the parts that are not our products.

Column

Hello. I am Tomori Shimada is in charge of the sintering process. It has been over 1 year since I joined the company. My motto is to keep smiling and I smile a lot while working. I will gradually deepen my knowledge about the sintering furnace which I contact everyday. My hobbies are biking. Last week, I had a chance to participate in bicycle racing in a track bank. When I bike at the bicycle racing, I always perform a 1km time trial but I was able to reduce the time by 2 seconds to 1 minute and 26 seconds.

Conclusion

Cracking, slumping or blistering is commonly observed due to the binder swelling and/or residual stress difference between the surface and interior. It is possible to avoid these problems by selecting appropriate organic solvents and temperature control.

The catalytic deboning uses sublimation of binder, thus it is possible to decompose the binder in relatively short processing time with minimizing the deformation. However, with a strong acidic atmosphere, theapplicable metal material option is limited.

In the sintering process, the necking, which is bridging the metal powders by thermal diffusion, starts at the sintering temperature. Once the necking starts, the shrinking is observed and increases the density, thus before starting the necking reaction, all the organic components should be decomposed and gas between the powders should be removed. In the sintering process, the unwanted chemical reaction, such as oxidation or carbonization, leads to mechanical property loss, therefore a precise atmosphere control with low heating rate at the beginning of the process is required. Also, when it reaches the sintering temperature, some add it vegetal can be evaporated.

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