Supply and Installation of Metal Binder Jetting Additive Manufacturing Workstation to the University of Birmingham

Concepts

• birmingham
• university of birmingham
• electrical equipment and apparatus
• high resolution metal parts
• university of birmingham invites tenders
• additive manufacturing workstation
• small size workstation
• supply of a binder
• workstation
• additive subsystem

Location

Birmingham

Description

General characteristics A workstation that can be utilised to fabricate high resolution metal parts. The envisaged application areas for the workstation are the manufacture of components, moulds and dies. Specification Additive subsystem 1) good build envelope with minimum size of 35 x 20 x 5 cm; 2) small layer thickness of at least 40 μm; 3) high deposition rate of at least 700 cm3/hr; 4) very high geometrical accuracy of fabricated parts with dimensional tolerance of max 300 μm or +/- 3.0 %; 5) small size workstation, less than 2 m x 1.8 m x 0.8 m; 6) separate powder station unit to avoid powder contamination; 7) low noise level, max 70 dBA; 8) fully CE compliant guarding; 9) well defined and agreed workflow from the purchase order through factory acceptance tests to the site acceptance tests and training.

Total Quantity or Scope

This project is funded by the European Structural Investment Funds (ESIF) and the procurement is dependent on the final funding agreement. The University of Birmingham invites tenders for supply of a binder jetting additive manufacturing workstation. The workstation will form part of a physical demonstrator, i.e. facilities created as part of the ESIF project, which will be used to facilitate/support the take-up of high impact manufacturing technologies by the SMEs in West Midlands. In this context, the workstation will be used to develop new applications for the technology in collaboration with technology providers and carry out feasibility studies and pilot projects to address the specific requirements of local SMEs. Therefore, it will be required as part of the project to build strong partnerships with the technology providers and define a joint co-funded RD programme for the benefits of local businesses. The workstation should perform metal additive manufacturing/3D printing for variety of powder materials including stainless steel, copper, tool steel and Nickel based superalloys. It should have reasonable building envelope of at least 4 L (XY should be at least 35 x 20 cm). Though, the system should allow upgrading the build envelope to bigger size in the future when needed. The system should have a separate unit for powder station unit to avoid powder contamination. The system should be able to produce various part geometries simultaneously without the need for multiple setups. The system should have very high resolution of at least 1 600 x 1 600 DPI. The system should have very high deposition/printing rate, 10 times faster than the powder bed fusion technology, of at least 700 cc/hr. The workstation should have an open access operating system where all working parameters can be modified. The system should be able to produce parts with very high surface finish. Overall budget for this item is up to GBP 290 400 excluding VAT. This project may be funded by the European Regional Development Fund (ERDF) or: — European Structural and Investment Fund (ESIF); or — Research Councils UK (RCUK), the strategic partnership of the UK's seven Research Councils.

Award Detail

Award Criteria

CPV Codes

• 31600000 - Electrical equipment and apparatus

Indicators

• Award on basis of price and quality.

Other Information

This is an ESIF (European Structural and Investment Funds)project. Should the project encounter any budgetary constraints then the University reserves the right to withdraw the requirement.