Img preview

Innovative eco friendly traps for the control of
Pine Lepidoptera in urban and recreational places

TECHNOLOGICAL WATCH

Type of information: NEWS

In this section, you can access to the latest technical information related to the PISA project topic.

How Netstal's injection moulding expertise is used for in-vitro diagnostics

How Netstal expertise in high-end injection moulding is being used for in-vitro diagnostics. × experts

The quick and precise analysis of tiny tissue samples is of the utmost importance for the diagnosis of life-threatening illnesses. For this purpose, analytical instruments are used in which a laser evaporates human specimens and turns them into a mixture of molecules. That mixture is then accelerated linearly in an electric field and fed into a detector unit. The mass spectrum recorded there allows the comparison of benign and malignant cells or serves to identify different types of bacteria. The sample carrier being used is one of the analysis system's precision components.

This is a rectangular platelet in a microscopic format (75 x 25 x 2mm) produced by Stratec Consumables. The company chose Netstal injection moulding machines for its last expansion.

In the concrete case, 48 deposition points for molecular samples (12 x 4 matrix) are located on a sample carrier, all of which must provide the same starting point for the analysis process. This is only possible if the sample carriers remain dimensionally stable without distortion within narrow tolerances – both during the analysis process as well as during the optional low temperature archiving (-80°C) for reference purposes. 

Stratec uses Sony DADC know-how and processes developed for the production of CDs, DVDs and Blu-ray disks - in particular precision injection moulding in a cleanroom, thin-wall metal coating or printing.           

×

Stratec Consumables

Despite their conventional appearance, the carrier plates for human sample analysis produced by Stratec Consumables in large series are high-precision plastic parts on which extreme demands are placed.

Injection moulding precision

Dr. Christoph Mauracher, managing director of Stratec Consumables, says: "As the requirements of our customers have grown with each new generation of analytical instruments, we have to keep up on the production side and systematically explore potential for improvement. That is why we had to find an injection moulding technology that operates at the limit of what is currently possible. After extensive comparisons, the all-electric Swiss Netstal Elion injection moulding machines ended up high on our shortlist.”

The necessary dimensional and shape precision makes the highest demands on metering, pressure control and pressure changeover. To meet this requirement, Netstal generally relies on pressure sensors for all machines, which are optimised by its own development contributions and used in combination with a controller architecture that is matched to this.

In addition, this technology package is not a standard configuration for all machines but is matched to their size. This ensures the currently highest dynamics during injection and ultra-precise process control. The stable gearbox design and a plasticizing unit with a temperature stability of +/- 0.25 °C guarantee that identical parts are continuously produced without the need for additional control algorithms to compensate for external influences.

Efficiency targets achieved

Dr. Mauracher added: “The high overall system efficiency and reliability of the Elion machines enable consistently high part quality at the lowest unit costs. The high shot-to-shot consistency allows continuous production within the narrowest tolerances while virtually eliminating rejects. It is also good to know that the machine could run faster than it has to with the described product because the technical data lists a theoretical dry running time of 1.3 s at a stroke of 287 mm."

Tags Netstal Injection moulding In Vitro Diagnostics Issue 42 Latest Issue

» More Information

« Go to Technological Watch








The development of this web server has been co-funded with the support of the LIFE financial instrument of the European Union [LIFE13 ENV/ES/000504]

AIMPLAS Instituto Tecnológico del Plástico
C/ Gustave Eiffel, 4 (Valčncia Parc Tecnolňgic) 46980 - PATERNA (Valencia) - SPAIN
(+34) 96 136 60 40
proyectos@aimplas.es