Certification Process for TONISCO Systems Oy : Drilling Device TONISCO B30
Nawrot, Arne (2013)
Nawrot, Arne
Tampereen ammattikorkeakoulu
2013
All rights reserved
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2013052811376
https://urn.fi/URN:NBN:fi:amk-2013052811376
Tiivistelmä
TONISCO System Oy is a producer of hot tapping drilling devices. In order to increase sales of the product TONISCO B30 to the German market it was necessary to get a certificate to satisfy the grown demands of the customers. Part of this work was to find out the right German authority for the certification process, make contact, find out the requirements and fulfill some of these given requirements.
Therefor several authorities were contacted by phone, electronic mail or even in personal meetings and the requirements were discussed. After that first phase the durability of the pressurized parts were checked by written calculations and the parts were modeled in the CAD software Autodesk Inventor Professional 2012. The geometries were imported to FEM software ANSYS® Workbench to analyze the structure. Later the results from the hand calculation were compared to the simulated results.
Both, the hand calculation and the software simulation, are showing that the structure of the B30 is able to resist the loads in the testing environment of 60bar. Also in order to fulfill one of the given requirements, a manual for the drilling device has been created in German language. For the further certification process a detailed project plan has been generated.
The results of the work confirm the experiences of the daily usage of the device. With the already created material the certificate should be achieved.
This is the public version of the thesis and does not include confidential data or appendices.
Key words: certification process, fem simulation
Therefor several authorities were contacted by phone, electronic mail or even in personal meetings and the requirements were discussed. After that first phase the durability of the pressurized parts were checked by written calculations and the parts were modeled in the CAD software Autodesk Inventor Professional 2012. The geometries were imported to FEM software ANSYS® Workbench to analyze the structure. Later the results from the hand calculation were compared to the simulated results.
Both, the hand calculation and the software simulation, are showing that the structure of the B30 is able to resist the loads in the testing environment of 60bar. Also in order to fulfill one of the given requirements, a manual for the drilling device has been created in German language. For the further certification process a detailed project plan has been generated.
The results of the work confirm the experiences of the daily usage of the device. With the already created material the certificate should be achieved.
This is the public version of the thesis and does not include confidential data or appendices.
Key words: certification process, fem simulation